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WiMi draws a new picture of the development of the IoT.
Source
https://www.newstrail.com/wimi-draws-a-new-picture-of-the-development-of-the-iot/
January 13, 2023
From the accumulation of the Internet of Things, big data, and artificial intelligence technologies to the explosion of a variety of innovative scenario applications, the process of social intelligence is accelerating, and the era of actual interconnection between digital technology and the natural world has arrived.
The Internet of Things (IoT) is the third wave of the development of the world’s information industry after computers and the Internet. In recent years, it has been a hot word that keeps pace with mainstream IT technology keywords such as cloud computing, big data, machine learning, and artificial intelligence. According to the latest forecast released by IDC, the scale of global Internet of Things (enterprise level) expenditure is expected to reach 1.1 trillion dollars by 2026. WiMi Hologram Cloud Inc. (NASDAQ: WIMI) has been paying close attention to the development trend of the Internet of Things technology, actively exploring the integration and development of a geographic information system (GIS) and developing a multi-dimensional data sharing system based on the time-space integration technology of the Internet of Things, and obtaining the software copyright.
WiMi Hologram Cloud Inc. (NASDAQ: WIMI) has been studying the critical technologies of spatiotemporal data analysis of the Internet of Things. Aiming at the characteristics of the spatial data in the Internet of Things, such as magnanimity, relevance, sparsity, and fragmentation, it focuses on the critical technical issues of the Internet of Things, such as data integration methods, Spatio-temporal semantic information expansion methods, multi-dimensional statistics and Spatio-temporal semantic mining methods, The multi-dimensional data sharing system based on the Spatio-temporal fusion technology of the Internet of Things has been developed and completed for the Spatio-temporal data analysis of the Internet of Things, to provide core essential technical support for the efficient expression, fusion, and analysis of Spatio-temporal data of the Internet of Things, and provide core technical support for the Spatio-temporal data analysis of the Internet of Things.
The multi-dimensional database of the time-space fusion technology adopted in the system developed by WiMi has two dimensions:
- time attribute and
- space attribute.
Big data that is directly or indirectly associated with time and location, taking the Earth as the object, based on a unified time-space benchmark, has multi-dimensional characteristics such as time dimension (T), space dimension (S) and attribute size (D). For example, GPS data first has a location point, which is the attribute of space, and the time of entry is the attribute of time. The system can realize a series of functions, such as efficient access to massive real-time data in the Internet of Things, continuous real-time processing and analysis, and visualization based on spatial data. It is a unique Internet of Things system platform that can integrate the dual dimensions of time and space.
The system can extract information from the hologram for analysis, or compare it with different scenes, identify changes in buildings, farmland, rivers and other things, and monitor changes in typhoon weather, haze, emissions and water systems to deal with emergency disasters, environmental protection, natural ecological protection and monitor the impact of human activities on the Earth.
It can present data visualization based on people or objects, holographic interactive analysis, such as thermal analysis and trajectory analysis, which can help governments and enterprises better grasp and deal with traffic congestion, public security, unreasonable planning and other problems caused by urban population growth, while bringing intelligent and automatic management mode, improving the overall efficiency of the city and reducing operating costs; The holographic vector map is used as the base map to conduct interactive analysis with vehicle data and big data of the Internet of Things, so as to help realize intelligent networking, automatic driving, unmanned driving, etc; It can also analyze the geographical location, interest, information, text, etc. in series based on the POI interest points of the map, carry out multi-dimensional semantic, temporal and other analysis, and enable different industries to achieve two-way management and urban planning needs of data classification and integration.
The research achievements of WiMi have broad application prospects. Research on the expression, integration, and analysis technology of time-space data of the Internet of Things will not only help to improve the level of intelligent analysis and application of the Internet of Things but also have significant social and economic value for smart cities, intelligent transportation, emergency management, and other fields.
Create the Wonderful Joy of Growth Together and Enjoy the Glory of Growth Chinasoft International 2023 Carnival was successfully held.
Source
https://www.chinasofti.com/news/2541.htm
January 16, 2022
The tiger roars a thousand mountains, and the rabbit gallops thousands of miles! On January 11, Chinasoft International 2023 Carnival was held simultaneously at the main venue in Beijing and the branch venue in Shenzhen, and fully covered major cities and business regions of Chinasoft International through cloud live broadcast. At the sites in Beijing and Shenzhen, leading cadres at all levels and representatives of outstanding employees of Chinasoft International, including members of the executive committee, gathered together to review the achievements and losses of the past year and look forward to the blueprint for the new year. Festive and peaceful festive atmosphere.
Chen Yuhong, Chairman of the Board of Directors and CEO of Chinasoft International, delivered a New Year speech "Believe in the Power of "Believe in Yourself"" at the main venue in Beijing. He summarized the progress of Chinasoft International in terms of business expansion, strategic cooperation, organizational optimization, and system overhaul in 2022, and pointed out that in the face of environmental uncertainty and multiple challenges, through the arduous and unremitting efforts of all employees, the company is advancing steadily and steadily on the established strategic path of leapfrog development and 5P advancement.
The next five years of SP303 will be the most difficult five years for us to achieve leapfrog development. We must trust the country, trust Huawei, and the company; trust the organization, trust the supervisor, and have confidence in ourselves; Believe in the power of "believe in yourself". Turn "creation and sharing" into "glory and dreams" through suffering and brilliance, work hard, create a wonderful growth together, and enjoy the brilliance of growing up!
Gold Medal and Meritorious Honor Awards - Demonstrate the power of role models and show the style of the digital iron army.
Mr. Chen personally presented the trophy and stock to Zhu Xiangyu, the winner of the CEO Special Award, from the Operator System Department (OSD) of Chinasoft International, kicking off the prelude to the 2022 annual awards. Mr. Chen praised Zhu Xiangyu's 57% performance growth, pointing out that any bad year can also have a good harvest, it depends on human effort. Zhu Xiangyu thanked the company for providing a platform to show his value, and thanked the team for their support. He said that the award is not only an honor, but also a responsibility and a mission. In the new year, he will devote himself to work with more enthusiasm and wish the company every success. In 2023, come on!
Tang Zhenming, Executive Director and Senior Vice President of ChinaSoft International, presented the Planning Management and Resource Management Stimulus Award, and extended New Year wishes to all employees. He said that the company has fully observed and judged the market situation and proposed new goals and tasks. On the basis of a clear direction, a clear path, and an orderly division of labor, as long as we believe in the power of "believe in yourself", our goals must be achieved, and we will definitely be able to achieve them! I hope that my colleagues will work together!
In 2022, the front-line team worked hard, moved forward bravely, and sprinted to achieve great results with all their strength, demonstrating the vigorous spirit of the Chinasoft International Digital Iron Army and the firm will to achieve the mission, achieving five-star quality around the cornerstone business, and the development of new business strength "promising" "Learn from example" to commend outstanding teams and individuals who have made outstanding contributions in key links such as signing orders, improving fertility, business convergence, cost optimization, and management services. On behalf of the awardees, Sun Jian, HWG's cost reduction and efficiency enhancement team, thanked the company for their recognition, saying that in the new year, they will make new achievements with full enthusiasm and professional ability.
He Ning, executive director and vice chairman of the board of directors of Chinasoft International, the award presenter, encouraged the winning team, saying that challenges and opportunities coexist in the future. Excellence, in the Year of the Rabbit, speed is the first priority, the early bird catches the worm!
The three gold medal team awards, Best Delivery Team, Best Stock Management Award, and Best System Support Award, aim to commend large teams such as project teams, business lines, and business groups for their excellent delivery practices, efficiency improvements, and effective support. The company's business continuity is guaranteed, breakthroughs are made in difficult situations, and sprint goals are achieved. Zhang Kui, the representative of the winners from the Consulting and System Department (CSD), hopes that all teams can serve customers with professional capabilities, deliver stable revenue with high quality, and everyone can become a gold medal team.
The award presenter Cao Yan, senior vice president of Chinasoft International, encouraged all cadres and employees of Chinasoft International to believe in themselves and believe that they can run faster in the Year of the Rabbit and pass 2023 smoothly under the leadership of the company and the joint efforts of the core team. , will eventually usher in dreams and glory.
Peng Jiang, Senior Vice President of Chinasoft International, presented awards to 22 individual gold medal winners. The individual gold medals represented Application Service Business Group ( ASG). A guide to corporate strategic planning. Peng Jiang said that the individual who wins the gold medal is the hero of the company. The new year calls for more heroes. 2023 will be the year when heroes emerge in large numbers. The true glory must rise in the face of adversity. I wish the winners new achievements this year.
The final award , the "Meritorious Veteran Award", was reserved for a group of veterans who have served the company for many years. Eight veteran employees stepped onto the stage to accept the award on behalf of more than 70 veteran employees of Chinasoft International with over 20 years of experience. Qian Weichun represented the veterans Thank you for the excellent platform provided by the company, and express that the veterans will continue to contribute to the company in the next ten or twenty years.
Xiong Yong, senior vice president and chief digital officer of Chinasoft International, sent a New Year message from the Shenzhen branch. He said that in the past year, under the leadership of the "heroes" of Chinasoft International, we have achieved remarkable results, and the times call for heroes. To create miracles, the people of Chinasoft International will definitely write their own "glory and dreams" with struggle as the pen.
Sun Jiawei, senior vice president of Chinasoft International and CEO of Cloud Intelligence Business Group (CIG), said that before the once-in-a-century opportunity, on such a good platform as Chinasoft International, we will continue to prepare for the future. The times call for warriors, and we are warriors.
Ju Yan, senior vice president of Chinasoft International and head of the Intelligent Internet of Things (AIG) Corps, said that the company has set a keynote for the new year-believing in the power of "believe in yourself", the essence lies in a strong heart and the construction of the company system And perfection, calling out the fighting passion of every Chinasoft International employee!
Business live broadcast: - Enjoy the brilliance of growing up, the Year of the Rabbit has a new atmosphere.
In the live broadcast of the 2022 Carnival, Chinasoft International Business Group took turns to send big-name benefits and sincere blessings to the employees, showing the youthful vitality of Chinasoft International!
HWG 2023 Journey to Resurrection Concentration and Momentum.
Liu Gang, vice president of Chinasoft International and president of HWG, said that 2023 is still a year full of challenges, and there is a long way to go. I hope and firmly believe that all partners of HWG will continue to be based on one heart with customers, start from the heart, actively manage, and constantly clarify goals. Unite and forge ahead.
ABG Go all out, Rabbit Wai 2023.
Fan Zhijun, executive president of the Intelligent Internet of Things Business Group (ABG), believes that in 2023, ABG will stick to the cornerstone business of H1, build customer satisfaction, achieve the company's business goals, and do a good job in the second R&D department of "Shenkaihong and One Netcom Corps", to speed up the growth of existing C2 business and the expansion of new business and new markets. In the new year, it will surely burst into vitality, stand out from the encirclement, and complete the development mission.
AIG + Shenkaihong 2023 - Full Assault on the Great Rabbit Exhibition.
Wang Pei, the deputy head of the Intelligent Internet Corps (AIG), said that in 2023, the AIG Corps will use KaihongOS as the base, closely connect with customers, and deeply integrate with the industry. [color=green]The software and hardware integrated solution with commercial competitiveness, accelerates the promotion and application of product solutions with Honglianchuang's deep cultivation, and joins hands with Shenkaihong to build an open source Hongmeng win-win ecosystem.[/color]
Zhou Zixiang, president of Shenkaihong, said that 2022 is the first year of Shenkaihong’s entrepreneurship. In 2023, Shenkaihong will continue to be the sharp knife of Chinasoft International in the field of open source Hongmeng! Continue to deepen the "(1+1)×N" strategy, deepen key business scenarios, form scenario-based solutions, build a secure digital base for the era of the Internet of Everything, create opportunities in opening up, and seek development in cooperation!
ASG Gathering intelligence and gathering strength, "Rabbit" breaks through 2023.
Zhou Xiaoxiao, vice president of Chinasoft International and president of Application Service Business Group (ASG), said that ASG continues to cultivate technology and Internet customers, successfully develops the field of central state-owned enterprises, firmly implements the "platform + service" model, and builds ERP implementation capabilities around medium and large customers. In 2023, under the company's strategic requirements, ASG will take value as the key link, shake up our spirits, and strive for success!
FBG Rabbit is advancing by leaps and bounds, the future can be expected.
Tian Tong, vice president of Chinasoft International and president of Financial Business Group (FBG), said that in 2023, FBG will focus on in-depth customer insights, stay close to customer needs, continue to deepen and improve customer-oriented service systems and development strategies, and continue to lay a solid foundation for all efforts At the same time as the business, build the industry technology and capability services of the small team model, so that "the cornerstone business is as quiet as a child, and the capability development is as dynamic as a rabbit"!
CIG is born in the cloud and keeps chasing the light.
Sun Jiawei, Senior Vice President of Chinasoft International and CEO of Cloud Intelligent Business Group (CIG), reviewed the overall business progress and achievements in 2022. The cloud service business has grown rapidly, and continues to lead the customer cloud channel ecology. , roads and other legions to carry out solution joint creation. Provide digital marketing, intelligent driving and software factory solutions for many well-known car companies, and gradually grow into a mainstream digital force in the field of software-defined cars.
The business live broadcast brought us to the end of the 2023 Carnival amidst the rounds of prize-winning contests and lucky draws. While sending surprise benefits to our friends, we also placed our sincere expectations and happiness for the new year wish.
In 2022, we will take root and break through upwards; in 2023, we will accumulate a lot of accumulation, and the "rabbit" will make rapid progress, continue to create wonderful growth together, enjoy the brilliance of growth, and strive to achieve Our "Glory and Dream"!
WiMi Develops Holographic Vision-Based HV-SLAM For Passive Navigation System.
Source
https://www.moomoo.com/community/feed/109674638802949
January 12, 2023
With the recent development of intelligence and algorithms, SLAM (simultaneous localization and mapping) technology has become one of the focus of market attention. SLAM or CML (Concurrent Mapping and Localization), instant localization and map construction or concurrent map building and localization, is considered to be a key technology for robots or some intelligent devices to perform autonomous mobility. WiMi Hologram Cloud, Inc. (NASDAQ:WIMI) has been investing in the R&D of SLAM for hologram vision 3D map construction, HV-SLAM. In general, intelligent machines such as robots and drones that need to move and cruise usually also use this technology, such as satellite navigation control. However, user may encounter many technical problems, such as signal loss, or a 3D complex structured environment. Positioning will be needed because it can sense the surroundings in an unknown environment through sensors for the positioning of the machine and thus the navigation.
WiMi's HV-SLAM is a technology for passive navigation and self-cruising positioning. HV-SLAM is crucial for the mobility and interaction of intelligent devices such as robots, drones or UAVs, because it represents the basis of this capability: knowing the location, surroundings, how to act autonomously next. It can be said that any intelligent body with some mobility has some form of SLAM system.
WiMi's HV-SLAM obtains images from a depth camera. The camera contains three core devices:
- a laser projector,
- an optical diffraction element (DOE), and
- an infrared camera, which are used to form a 3D holographic map of the system.
It allows the device to better intelligently determine its course of action and how to act. For example, when robots come to an unfamiliar environment, to quickly familiarize with the environment and complete the task, then robots will need to do the following things.
Feature extraction:
acquire information such as the surrounding environment with the sensor and record the feature data.
Map construction: according to the information acquired by the sensor, the environmental features are constructed in the system in the form of a 3D holographic map.
Dynamic calibration adjustment:
during the movement, new feature landmarks are continuously acquired and the 3D holographic map model in the system is corrected.
Trajectory annotation:
determining its position based on the feature landmarks acquired during the previous period of movement.
Loop closure detection:
check whether the loops can be matched and return safely.
The algorithm of WiMi’s HV-SLAM constructs a 3D holographic map of the world in real time and simultaneously tracks the position and orientation of the camera (head-mounted on a handheld or augmented reality device or mounted on a robot). Combining convolutional neural networks and deep learning to achieve self-cruising positioning passive navigation functions, HV-SLAM focuses on geometry and space, while deep learning is applied to perceive and recognize objects to give suggestions. Computer vision techniques are applied to visual SLAM that includes detection, description and matching of salient features, image recognition and retrieval, etc. to significantly improve efficiency. The HV-SLAM system can help the machine understand the world in front of it geometrically, i.e., build associations in the local coordinate system, while the deep learning system can help the machine perform classification reasoning, i.e., build associations between different object instances.
Of course WiMi’s HV-SLAM also has some algorithms that in reality may need to be considered and continuously optimized and upgraded. Going forward, multi-sensor fusion, optimized data association and loopback detection, integration with front-end heterogeneous processors, improved robustness and repositioning accuracy are the next development direction of SLAM technology, but these will be gradually resolved with the development of consumer stimulus and industry chain.
WiMi Develops Web3.0 Holographic Space Internet Technology to Lead Industrial Upgrading.
Source
https://www.newstrail.com/wimi-develops-web3-0-holographic-space-internet-technology-to-lead-industrial-upgrading/
January 11, 2023
WiMi Hologram Cloud, Inc. (NASDAQ:WIMI) has been committed to the development of holographic technology research and application, and has muscular technical strength and patent support in both software development and hardware development, and also actively explores solid layout in many new technology areas, and has achieved a lot of results in the development and application of Web 3.0 holographic space Internet technology.
The Internet has been developed for decades and is now the third generation of Internet technology.
- Web 1.0, also known as a static network, only provides access to limited information without rich user interaction or algorithms for filtering Internet pages, which makes it difficult for users to find relevant information. It was like a one-way street of data, with content creation done by a few people and information mainly coming from directories.
- Web 2.0 has more advanced technologies, such as JavaScript, HTML5, CSS3, and other Web technology advances, making Web 2.0 more interactive. Social networking and user-generated content open the way as data can now be distributed and shared across various platforms and applications.
- Web 3.0 is the next stage of Web development, which scientists call the holographic spatial Internet. It will build a three-dimensional holographic virtual world through a new generation of technology iterations and convergence that will subvert our current graphics technology to blur the boundaries between the real physical world and the virtual digital, which will be a holographic Internet world. WiMi is a pioneer in this field. This technology will bring a new immersion in advertising, intelligent industry, real estate, medical health, e-commerce, social and other fields, bringing some disruptive interactive applications to the industry.
People have experienced Web 1.0 and Web 2.0. People know the convenience that the Internet brings to our lives and can deeply feel that our current Internet should be wiser and more intelligent, and the effect of the experience should be more comfortable. To achieve Web 3.0 holographic space, Internet human-computer interaction is essential, which will be a new way of control, and WiMi has been in the industry-leading position.
WiMi’s XR technology-based human-computer interaction system, virtual reality human-computer interaction terminal, and other human-computer interaction-related technologies have obtained the corresponding patents. WiMi also applied for a convenient three-dimensional touch interaction system based on image processing technology, an XR technology-based human-computer interaction system. Through the combination of spatial computing and human-computer interface, the system can quickly collect information about the surrounding environment and interact with real-time information online in the future.
People have already opened a new chapter in the initial development of human-computer interaction through such hardware as smartwatches and smart glasses. With future technological development and innovation, these devices will become smaller and smaller, highly portable. With the development and application of artificial intelligence, voice control, and brain-computer interface technologies, people will also usher in a new Web 3.0 holographic space Internet era.
WiMi has been developing holographic space Internet technology and over 200 patents and 400 software patents related to holographic space Internet technology, each of these innovative technologies contributes to the development and ultimate realization of Web 3.0 holographic space Internet. It is more of a complete upgrade of technology and experience.
Just as people would not have thought before 2010 that our lives and work would now be inextricably linked to our cell phones, so people have the perfect opportunity to compete and gain an absolute advantage in a whole new technology in the Web 3.0 era and to usher in a challenging technological disruption and transformation of the Internet industry. The emergence of smart cities and factories, self-driving cars and homes, smart appliances and virtual reality worlds, automated shopping, and digital personal healthcare are changing how people live, play, work, travel and shop. Our technology is exploding from the transformation of screens into the physical world around us. At the same time, the people, places, and things in our world are being digitized and brought into the virtual world as part of the digital realm. People are digitizing the physical world and “physicalizing” the digital world. The clear line between the real and the virtual is disappearing. The technologies seen in the science fiction stories of the last century will be realized through this round of technological development.
WiMi developed The AI RAN Side-Network Slice Management System.
Source
https://www.newstrail.com/wimi-developed-the-ai-ran-side-network-slice-management-system/
January 11, 2023
WiMi Develops A Highly Reliable Silent Speech Recognition System.
Source
https://www.newstrail.com/wimi-develops-a-highly-reliable-silent-speech-recognition-system/
January 10, 2023
Language is the most common and direct way of human-to-human communication, and automatic speech recognition (ASR) is the most favored interaction method for future human-computer interaction. However, ASR also has limitations, such as degraded ground recognition in the presence of ambient noise, restricted privacy, and poor accessibility for patients with severe speech impairment, which prompt the need to use alternative non-acoustic modes of the human voice or silent speech recognition (SSR) technologies to assist. SSR converts electrical signals from facial and laryngeal vocal fold movements into speech signals and decodes what the user says through silent reading recognition without making a sound. Eye tracking, facial expression recognition, and brainwave control are all silent recognition technologies. SSR is a practical input in noisy environments, underwater or in space.
There are generally two ways of SSR. One is to install sensors to the terminal and judge the content of the user’s speech by sensing the airflow when the user speaks; the other is to analyze the facial sEMG (Surface Electromyography) signal characteristics when a human says by collecting the facial sEMG signal and correspond the sEMG signal to the text through the training of the neural network.
WiMi Hologram Cloud, Inc. (NASDAQ:WIMI) develops a highly reliable silent speech recognition system (WIMI SSR system) based on multi-feature signal sensing technology, which uses a multi-signal sensor and signal processing algorithm system to recognize silent words and phrases from surface sEMG signals involving facial and neck muscles. The WIMI SSR system recognizes silent words and phrases from sEMG by signal to recognize words, then recognizing word sequences using a grammar model, and finally recognizing untrained words using a phoneme model and transferring the untrained sEMG signal features to the deep learning module. The SSR algorithm is integrated with specially designed multi-featured signal sensors that can be arranged in flexible geometries to record high-fidelity sEMG signal measurements from the small articular muscles of the face and neck.
SEMG is one of many bioelectrical signals and is one of the relatively most accessible electrophysiological signals to acquire. By placing electrode pads on the skin surface of the human body, the weak potential difference generated by muscle contraction on the skin surface can be recorded, and this possible weak signal is amplified and converted by the EMG acquisition circuit to form a surface EMG signal that can be used for processing.
Pre-processing:
The acquired sEMG signal is processed by the software, denoised by the wavelet transform (WT) denoising method, resampled according to the processing performance, and the signal is analyzed and operated from the time domain, frequency domain, or time-frequency domain.
Feature extraction:
Used in combination with signal segmentation (window splitting), the moving window method is used to extract feature variables in a specific small window, which on the one hand can reduce the dimensionality, and on the other hand, the number of features can better reflect the characteristics of the segment relative to the original data, and the time-series signals often have context-dependent characteristics, so a certain overlap can better reflect the features. In the segmentation window to extract features, these features can be divided into time-domain segments, frequency-domain parts, and time-frequency-domain components, including deep learning methods CNN from a large amount of data to extract some “black box” features.
Feature classification:
The sEMG signal features are modeled with their corresponding categories by machine learning methods (including deep learning).
SSR technology ensures that users can express their intentions without making a sound, move their mouths in private without making an audible speech, and recognize the articulated information as visual content in noisy environments.
The successful application of WiMi’s multi-featured signal sensing technology’s highly reliable silent speech recognition system (WIMI SSR system) not only helps people with hearing and speech impairments but also applies to scenarios including disaster sites, extra-vehicular exploration, underwater operations, and factory floors. In the future, let the machine understand human language.
Relying only on sound information is not enough, “sound, light, light, heat, magnetic” and other physical perception technology must be integrated to use, so that the machine, beyond the five human senses, can see what humans can not see, hear what humans can not hear. Let the device hear far beyond human perception, which is not only the progress of the algorithm but also the need for the entire industry chain of standard technology upgrades, including more advanced sensors and more robust arithmetic chip.
WiMi develops intelligent algorithm video analysis security warning system.
Source
https://www.newstrail.com/wimi-develops-intelligent-algorithm-video-analysis-security-warning-system/
January 10, 2023
With the wide application of intelligent video analysis technology and the continuous upgrading of innovative visual image recognition technology, the intelligent video analysis security early warning system based on a central processing algorithm provided by WiMi Hologram Cloud Inc. (NASDAQ: WIMI) helps AI to be implemented in intelligent production, smart city, intelligent security, and other fields. WIMI intelligent video analysis security early warning system enables traditional cameras to provide enterprises with comprehensive management services of intelligent video identification and analysis. With the continuous development of computer, communication, and image processing technology, the video surveillance system has gradually become an essential means of security.
WIMI intelligent video analysis and early warning systems are based on the central processing algorithm and machine vision recognition technology. It uses a deep learning model to train many behavior data. Collecting video information through the on-site camera can actively identify the behavior of people and objects in the area, analyze the abnormal behavior of people and the unsafe state of things, and achieve active early warning.
WIMI intelligent video analysis and early warning system can establish a mapping relationship between image and image description and conduct digital image processing and analysis to understand the content of video screen; Embed the central processing algorithm and artificial intelligence technology in the digital signal processing (DSP) system, and form the core central processing intelligent algorithm by analyzing and refining various behavior modes of the target; In practical application, through comparison and comparison, identify the classification of collected figures, investigate the category of behavior actions, label the frame outline and action trajectory of the target, and give early warning and real-time alarm.
WIMI intelligent video analysis technology uses background subtraction technology to detect image changes (such as intrusion, packet loss, retrograde, and other image changes), compares the video frame with the reference background image, changes in pixels (areas) at the exact location are regarded as change areas, and these areas are further processed, identified and tracked to obtain the target location, size, shape, speed Based on the basic morphological and dynamic information such as dwell time, the target tracking and behavior understanding can be realized. The mapping relationship between images and image descriptions can be completed so that the system can further determine rules until an alarm is triggered.
WIMI intelligent video analysis configures the event detection to trigger the alarm function in real-time and aggregates the historical information to display it as a chronological chart, graph, or heat map for the AI system to conduct in-depth learning. This technology has obvious advantages over traditional video analysis methods. The artificial intelligence algorithm engine can automatically check the video stream frame by frame in detail and ensure stable and reliable results for 7 * 24 hours. This technology can help employees filter related events and send warning notices when action is needed. For example, in traffic early warning, the system can timely and accurately analyze and understand massive video data, obtain primary traffic data in real-time, predict traffic congestion and traffic accidents, achieve intelligent identification, early detection, and automatic alarm, reduce the workload of traffic controllers, improve monitoring accuracy, and make urban road traffic management more effective.
WiMi Hologram Cloud Inc. (NASDAQ: WIMI) intelligent video analysis and early warning system is developed based on artificial intelligence technology, which can meet the application needs of smart monitoring in smart cities, smart factories, intelligent transportation, and other industries. With the development of science and technology, thoughtful video analysis and early warning systems will be more and more widely used in people’s livelihoods, and the technology will be more and more mature and reliable.
WiMi Researches on 3D Detection Algorithm By Multi-Channel Convolutional Neural Network.
Source
https://www.newstrail.com/wimi-researches-on-3d-detection-algorithm-by-multi-channel-convolutional-neural-network/
January 10, 2023
With the rapid development of computer vision and artificial intelligence, there are many intelligent detection technologies, such as image-based object detection and scene recognition. In recent years, significant progress has been made in the research and application of convolutional neural networks in visual recognition. For example, convolutional neural networks are applied to algorithm research in three-dimensional object detection.
It is said that the R&D team of WiMi Hologram Cloud Inc. (NASDAQ: WIMI) is developing a 3D object detection algorithm based on a multi-channel convolutional neural network, which uses RGB images, depth images, and BEV images as network inputs to regression the category, 3D size and spatial position of objects respectively. The multi-channel neural network system combines RGB, depth, and BEV images to realize 3D target detection.
BEV images provide information perpendicular to the camera’s viewpoint and can represent the spatial distribution of objects. Point cloud projection generates a BEV image, which is used as the neural network input to improve the accuracy of 3D target detection. The convolutional neural network is used to process the input point cloud data directly, the coding and feature extraction problems of disordered point clouds are solved, and the end-to-end regression of the three-dimensional boundary box is obtained.
Only 3D suggestion frames are extracted directly from monocular images, and 3D boundary frames are estimated. Laser point clouds are combined with visual information, and point clouds are projected into bird ‘s-eye view images (BEVs). The data is input into the convolutional neural network, and the information is fused to estimate the 3D boundary box. The fusion of multiple information is beneficial to detect the target in 3D space better.
The three-dimensional object detection algorithm based on a multi-channel convolutional neural network developed by WiMi can simultaneously identify the category, spatial position, and three-dimensional size of objects, significantly improving object detection’s accuracy and efficiency. The multi-channel target detection neural network system can extend the two-dimensional image target detection to three-dimensional target detection. The input expands to three channels, including RGB images, depth images, and BEV images.
- Firstly, RGB, depth, and BEV images are used as the network’s input. The convolutional neural network obtains the feature map, and the spatial pyramid pool layer generates the feature vector of the suggested region in the feature map.
- Then the target’s classification and position regression are realized using classifiers and regressors. The classifier is mainly used to judge which category the feature extracted in the proposal belongs to.
- Finally, multitask regression is performed through two fully connected layers to predict object categories and 3D bounding boxes.
Three-dimensional object detection and recognition have always been an essential technology in computer vision, which is the basis for machines to understand and interact with the world. At present, three-dimensional object detection technology has many applications in navigation, intelligent robots, uncrewed vehicles, security monitoring, and other fields.
With the progress of 3D data acquisition technology, the enhancement of computing power, the development of deep learning technology, and the increase in application demand, the research and application of 3D vision technology have received more and more attention. The 3D object detection algorithm based on a multi-channel convolutional neural network researched by WiMi has extensive application prospects in the fields of automatic driving, intelligent robot, ARVR, remote sensing, biomedicine, and so on.
3D object detection algorithm technology is the integration of ground wireless communication technology, mobile communication technology of medium and high-low orbit satellites and short-distance direct communication technology. With 3D object detection algorithm, we are closer to a world of holographic spatial information interconnection.
At this stage, the physical world is highly represented in detail in the digital field, analyzed and processed, and people will be placed in it to achieve holographic spatial information interconnection. As a critical infrastructure, the 6G network provides high-capacity links with low-end end-to-end latency and secure computing capabilities throughout the network, enabling virtual representations of people and physical devices to exchange information with each other in the digital domain.
In the new era, WiMi Hologram Cloud combines artificial intelligence, big data, and other technologies to build a number of agents to realize the organic integration and multi-way interaction between the physical world and the digital world. At the same time, WiMi provides new research aspects on virtual and real integration. AR, Holographic, VR, and AI technology are not only simple display tools, they will be more fusion of the artificial intelligence industry and a variety of interactive ways.
WiMi Hologram Cloud, Inc. will realize the transition of people-things interaction, building content tools, and artificial intelligence integration common system, to create “the actual fusion, the extension of space and time, embodied interaction, comprehensive communication” vision.
WiMi Builds An Immersive System To Realize Cross-Space And Time Virtual Communication.
Source
https://www.newstrail.com/wimi-builds-an-immersive-system-to-realize-cross-space-and-time-virtual-communication/
January 9, 2023
Multi-source information fusion interactive virtual reality technology is an interdisciplinary discipline that integrates bionic technology, electronics, communication technology, and computer technology, which is a frontier topic of great interest. The emergence of various new technologies has also promoted the development of multi-source information fusion interactive virtual reality technology, and a variety of interactive virtual reality technologies that rely on multi-source information integration are emerging.
Virtual reality (VR)
https://en.wikipedia.org/wiki/Virtual_reality
is a simulated experience that employs pose tracking and 3D near-eye displays to give the user an immersive feel of a virtual world. Applications of virtual reality include entertainment (in particular video games), education (such as medical or military training), and business (such as virtual meetings or conference). Other types of VR-style technology include augmented reality and mixed reality, sometimes referred to as extended reality or XR, although definitions are changing due to the nascence of the industry. Currently, standard virtual reality systems use either virtual reality headsets or multi-projected environments to generate realistic images, sounds and other sensations that simulate a user’s physical presence in a virtual environment.
WiMi Hologram Cloud, Inc. (NASDAQ:WIMI), the first share of holographic AR, builds a multi-source information fusion and interactive holographic immersive system based on a multi-source information fusion algorithm and holographic technologies. The purpose of multi-source information fusion is to obtain information of higher quality. And multi-source information fusion is a functional simulation of the human brain’s integrated processing of complex problems. The noise and outliers in the input information are eliminated for the redundancy of multi-source details. On the other hand, for the redundancy of multi-source information, valuable information related to practical applications is obtained, and the complete information description is obtained to the maximum extent.
And as a leading-edge technology of the times, holographic technology combines simulation technology with computer graphics, human-machine interface technology, sensing technology, and multimedia technology to build virtual scenes. The fusion of its presented 3D images with the actual physical world is achieved in an almost transparent interface state, so it has a strong sense of reality and presence, which can create subversive experiences, realize virtual cross-time and space interaction, and create real live communication.
In the multi-source information fusion interactive holographic immersion system, holographic technology features are gradually integrated into the user and the application object to increase the user’s emotional input and active participation through an immersive scene experience and to build an immersive, innovative and interactive virtual 3D scene that feels like the real world. The immersive interaction it creates brings the machine-constructed environment infinitely closer to the perceived natural environment, conveying to the user a complete and comprehensive physical and psychological sensation similar to the actual situation.
The multi-source information fusion-based interactive holographic immersive system not only communicates and communicates across the limits of time and space but also creates a technological system that enables the virtual natural environment to act on the human body and generate various sensory and physical responses, realizing perceptual systems such as visual, auditory and tactile immersion and behavioral systems such as orientation, language immersion, and expression system immersion.
The application of WiMi Hologram Cloud’s immersive system, based on multi-source information fusion interactive holographic, can be precisely divided into the individual consumer market and enterprise market. The former one includes experiences such as immersive multimedia and digital games, while the latter one mainly has scenarios such as exhibition, medical, architecture, education, and tourism. Continuously exploring and expanding the commercialization of interactive holographic immersion systems based on multi-source information fusion will be the direction of WiMi Hologram Cloud’s future efforts.
Investment – ??SC 13D.
Source
https://fintel.io/doc/sec-wimi-hologram-cloud-inc-1770088-sc-13d-2023-january-05-19363-3302
January 5, 2023
UNITED STATES SECURITIES AND EXCHANGE COMMISSION
Washington, D.C. 20549
SCHEDULE 13D
Under the Securities Exchange Act of 1934
MicroAlgo Inc.
(Name of Issuer)
Ordinary shares
(Title of Class of Securities)
G6077Y103
(CUSIP Number)
Jie Zhao
WiMi Hologram Cloud Inc.
Room#2002, Building A, Wentley Center,
1st West Dawang Road,
Chaoyang District, Beijing
The People?s Republic of China, 100020
(+852) 2522-9333
(Name, Address and Telephone Number of Person Authorized to Receive Notices and Communications)
December 28, 2022
(Date of Event Which Requires Filing of This Statement)
Please read the FULL REPORT at:
https://fintel.io/doc/sec-wimi-hologram-cloud-inc-1770088-sc-13d-2023-january-05-19363-3302
Video to Post# 611https://investorshub.advfn.com/boards/read_msg.aspx?message_id=170904002
WiMi Develops A 3D Visualization Holographic Interaction System.
Source
https://www.newstrail.com/wimi-develops-a-3d-visualization-holographic-interaction-system/
January 6, 2023
People’s demand for three-dimensional information is increasing daily in the rapidly developing information age. 3D visualization has shortened the gap between the natural world and the computer virtual world, broadened people’s vision so that people can understand the world more clearly, and provided good guidance for transforming the world.
WiMi Hologram Cloud, Inc. (NASDAQ:WIMI) has developed a 3D visualization holographic interactive system based on 3D visualization and holographic technology. The 3D visualization holographic interactive system is an integrated application system that integrates many advanced technologies and means, such as digital twin networks, multimedia integration technology, human-computer interaction, etc. This system will integrate various advanced technologies and standards to provide users with a comprehensive and realistic information display and interaction platform and to build communication between the natural environment and the virtual scene bridge.
WiMi uses 3D visualization technology to create the same type of visual interaction scenes as the accurate model in the virtual environment, aiming to achieve a more intuitive visualization of the actual location so that users can fully understand the scene from different levels and perspectives. And through the digital twin network, the expression of each information system in the real space corresponds to the digital model and the connection between each information system. It forms a complete and dynamically changeable 3D visualization interactive system to interact the data of each method with the site environment so that users can obtain comprehensive and accurate factual information from a real virtual space or model and can dynamically analyze and simulate these data and visualize the data in the digital 3D area, forming a complete real-time data-driven system.
It also provides users with many integrated views using multimedia integration technologies, such as data visualization, network information sharing, historical information query, data storage, etc.
In the digital era, with the increasing popularity of artificial intelligence, human-computer intelligence interaction methods are also upgrading and developing.
From the initial face recognition to the voice assistant, from intelligent services to improve efficiency to multi-scene interaction applications to change human life, artificial intelligence interaction has been applied to smart cars, smart homes, industrial production, government services, finance, education, medical, and many other fields.
In the future, such interaction methods as WiMi’s 3D visualization holographic interaction system may gradually become the mainstream of human-computer intelligent interaction, promoting a more thoughtful and efficient interplay and interaction between the real world and digital virtual.
Video - Siyata Mobile $SYTA -IN VEHICAL COMMUNICATION EXPLODING
January 4, 2022
WiMi Developed an AI Information Management Platform By Data Algorithm Analysis.
Source
https://www.newstrail.com/wimi-developed-an-ai-information-management-platform-by-data-algorithm-analysis/
January 6, 2023
Big data has brought an unprecedented information explosion to the Internet. It has changed the way Internet data is used and has also had a profound impact on human production and life. People living in the age of big data realize that the understanding of big data on data analysis needs to be changed from “backward analysis” to “forward analysis,” which has changed people’s way of thinking. In the age of big data, the generation and collection of data are the foundation, while data mining is the core. In big data, data mining is the most critical and valuable work. Data mining or knowledge discovery generally refers to an engineering and systematic process of mining hidden, previously unknown, but potentially useful information and patterns from a large amount of data.
The existing data mining tools, such as Weka [4], SPSS, SQL Server, etc., provide a friendly interface for user analysis, but these methods are not suitable for large-scale data analysis. When using these tools simultaneously, it is difficult for users to add new algorithm programs. To solve the limitations of existing tools and products in extensive data mining, WiMi Hologram Cloud Inc. (NASDAQ: WIMI) has developed a new platform – an artificial intelligence information management platform based on data mining algorithm analysis, and has obtained software copyright. This user-friendly data mining system supports efficient computing and rapid integration in a distributed environment. The platform supports data analysts in conducting data mining tasks quickly and effectively.
The artificial intelligence information management platform based on data mining algorithm analysis developed by WiMi Hologram Cloud Inc. (NASDAQ: WIMI) uses artificial intelligence, machine learning, and deep learning technologies to extract hidden, previously unknown, and potentially valuable information from massive data.
Its main goal is to remove superset information from many data sources and fuse them to reveal their deep structure and internal relations. Building information in a distributed heterogeneous environment can significantly reduce the complexity of building data analysis tasks caused by different physical environments and fully use the ability of distributed computing to improve the efficiency of data analysis. In addition, the computing resources of the platform can be dynamically increased or decreased, enabling it to adjust the physical computing resources online according to the number of specific analysis tasks. Finally, the friendly user interface provides excellent convenience for building different big data mining applications based on the platform.
The platform of WiMi uses a genetic algorithm, rough set method, decision tree method, and neural network method to divide the general steps of data mining into analyzing the problem: determine whether the source database meets the data mining standard; Extract, clean, and verify the data, remove the noise in the data, and obtain data with complete data and uniform format;
- Create and debug the model:
apply the selected data mining algorithm to the data to create the model and verify and adjust the model through the data to obtain the data model that meets the use requirements;
- Maintenance of data mining model:
With the increase of data volume, the change of some essential information may lead to serious model accuracy, which requires adjustment and maintenance of the model. The accuracy of severe models and model maintenance are critical links to data mining. Model maintenance can maintain the vitality of the model and continuously improve the model.
With the advent of the significant data era, the data accumulated in all walks of life is growing explosively. The demand for data mining in all fields will strengthen, and the combination with various professional areas will become more and more extensive. Whether in science or engineering, theoretical research, or real life, the artificial intelligence information management platform based on data mining algorithm analysis of WiMi will have a comprehensive development prospect.
WiMi’s HCI System Realizes Barrier-Free Communication Between People and Objects.
Source
https://www.newstrail.com/wimis-hci-system-realizes-barrier-free-communication-between-people-and-objects/
January 5, 2022
Interactivity is one of the three characteristics of virtual reality. It refers to users’ interaction, in a portable and natural way, with computer-generated virtual world objects. It is about creating a more natural and harmonious human-computer interaction environment in the two-way perception of the virtual environment. In the intelligent cab consisting of hardware, software, and operation interaction, operation and interaction is the “button” to achieve human-computer interaction, which directly impacts the driver’s experience. In the automotive industry, screen, voice, gestures, and other interactive technologies have matured. Holographic, human-computer interaction and other technologies are constantly being carried out in the innovation of interaction methods.
The human-computer interaction interface is usually the part visible to the user, through which the user communicates with the system and performs operations. [color=greenTo study the communication and communication between humans and the computer through mutual understanding and to accomplish the functions of information management, service, and processing for people to the maximum extent, WiMi Hologram Cloud, Inc. (NASDAQ:WIMI) developed the interaction control software based on holographic robotic technology and obtained the software copyright of the invention.[/color]
The system consists of four main steps.
- Data acquisition:
using two (or more) cameras to take pictures of the current environmentand get two (or more) different perspective photos for the same background, and then calculating the depth information according to the geometric principle to acquire human action images.
- Action detection and segmentation:
the parameters of the plural cameras and their relative positions to each other are known, and as long as the positions of the same objects in different pictures are identified, the recognition effect of the thing under test can be calculated by the algorithm and used to detect whether the input image is an action command.
- Action recognition:
algorithmsare applied to form multi-angle three-dimensional imaging, extract action area features and identify their kinds according to specific methods.
- Using recognition results to control people or objects in the holographic virtual environment:
- the recognition results are sent to the virtual environment control system to control the virtual people/entities to achieve specific movements.
WiMi provides a new technical means for human-machine interaction and remote control device applications through observing and manipulating 3D data based on holographic robotic technology. It allows the user to enter the scene constructed by the computer graphics system and interact with the virtual objects. The system can be applied to industry, healthcare, education, autonomous driving, and e-commerce.
In terms of autonomous driving, it can be connected to the diagnostic system and cloud platform on the car, and the vehicle can start various functions according to the user’s gestures and even replace multiple physical or virtual buttons on the vehicle. Users can be freed from the limitations of physical input devices, providing them with a more excellent range of interactions that can be operated with a certain degree of ambiguity. As one of the most natural ways to communicate, only one action command in the car can save energy and effort. Until fully driverless, the correct use of motion command interaction can effectively reduce driver and passenger distraction and form a crucial complementary system to interaction methods such as touch and voice.
For example, the driver can turn the front reading lights on or off when they place their hand under the rear-view mirror, or the sunroof can be opened or closed when the driver swings their arm back and forth in front of the rear-view mirror.
WiMi is now researching key technologies such as human-machine data collection, real-time scene modeling, and 3D display, low-latency secure remote control. WiMi is also developing and integrating key technologies to create interactive control software based on holographic robotics in virtual reality environments that can further enhance the human-machine interaction experience and remote control efficiency, which has great reference value to improve the intelligence of human-machine interaction further.
WiMi Provides Accurate 3-D shape Detection By Digital Holographic Microscope.
Source
https://techbullion.com/wimi-provides-accurate-3-d-shape-detection-by-digital-holographic-microscope/
Janoary4, 2022
With the rapid development of microelectronics and optical communication technology, the applications of microfabrication technology and micro-optical devices are increasingly extensive. The surface error, surface roughness, and other technical indicators of micro-optical devices will significantly impact the performance of micro/nano optical elements and even the entire optical system.
Therefore, the quantitative measurement of the three-dimensional surface of micro/nano elements has become a fundamental technical problem in developing micro-optical elements and micro/nanosystems. With the continuous development of digital computer processing and optical imaging technology, computational optical imaging technology has gradually become the focus of attention in recent years. To solve the problems of phase information acquisition, zero-order image, conjugate image interference, and other problems in optical technology, WiMi Hologram Cloud, Inc. (NASDAQ: WIMI) uses the analysis of coherent optical imaging theory combined with digital holography. The WIMI digital holographic microscope system is developed to solve the above problems. The system will mainly be used in the three-dimensional shape detection of micro/nano components.
In this system, a digital holographic angular spectrum reconstruction algorithm is used to obtain the phase distribution of scratches on the optical component surface. Scanning and splicing techniques are used to detect the entire area. Based on the WIMI digital holographic microscope system device, three-dimensional precision scanning elements are added to measure its surface scratches and splice them into the whole holographic stereo image so that the system can perform complete three-dimensional topography imaging on the detection area of the object.
The charge-coupled device (CCD) is used to replace the traditional holographic recording, and the angle algorithm is used to simulate the optical diffraction process. The numerical simulation is carried out to reproduce the wavefront distribution of the original object’s optical field so that the whole process of holographic recording, storage, transmission, and reconstruction can be digitized, meeting the micro/nano accuracy requirements, and it has the advantages of the whole field of view, non-contact, nondestructive, etc.
WIMI digital holographic microscope system uses holographic principles to produce real-time high-resolution three-dimensional digital images. Holographic images are generated by interference between the reference light and object light and then recorded by the holographic camera and transmitted to a computer for real-time digital reconstruction. This process only takes a few microseconds to collect and reconstruct a holographic image. Then, the special data acquisition and analysis software of the system will analyze the target hologram and generate the following:
- Light intensity map: provide images with the same contrast as traditional microscopes.
- Phase diagram: provide quantitative values, and conduct accurate three-dimensional measurements on the measured object.
Through the reflective digital holography, the phase image reveals the surface light intensity pattern of the object to be measured with sub-nanometer accuracy. In digital transmission holography, the phase diagram shows the phase shift information of the measured transparent sample, and these values provide essential quantitative data, especially for biological samples. This variety of digital holography methods has improved the precision of video and computational microscope images. Still, WiMi Hologram Cloud Inc. (NASDAQ: WIMI) also needs to adjust various optical parameters in the optical microscope, including the optical phase difference, digital image focusing, image tilt adjustment, and eliminating environmental disturbances.
The WIMI digital holographic microscope system provides a whole field of view, a nondestructive and rapid quantitative testing method for the three-dimensional shape detection of micro-optical elements. Later, through further data accuracy analysis and experimental research on various samples, this hope is expected to be used for the early processing, optimization, and subsequent quality evaluation of micro/nano elements.
WiMi Studies Diverse Data Fusion Technology To Assist Scientific Decision Making.
Source
https://www.newstrail.com/wimi-studies-diverse-data-fusion-technology-to-assist-scientific-decision-making/
January 4, 2023
In the era of big data, information explodes, and data sources are more and more extensive; data also has multidimensional characteristics, which is mainly reflected in the diversity of data attributes, that is, data extracted from the same object from different perspectives, such as
- content theme dimension,
- type dimension,
- structure dimension,
- time dimension, and
- space dimension.
When processing massive and complex data, it is difficult for users to dig out valuable information. On the other hand, single-source and single-dimensional data is challenging to meet the needs of auxiliary scientific decision-making. Furthermore, the demand for multi-source and multidimensional data fusion technology is increasingly urgent. At the same time, the development of emerging technologies such as the Internet of Things, cloud computing, and artificial intelligence not only improves the ability of data acquisition and analysis, and processing, promotes the development of data fusion, but also increases the research heat of data fusion.
It is understood that the WiMi Hologram Cloud, Inc. (NASDAQ: WIMI) research and development team is developing multi-source and multidimensional data fusion technology research. Multi-source and multidimensional data fusion combines the data of multiple sources. It uses computers for data processing to obtain valuable, comprehensive information that cannot be accepted by a single or single-class information source. According to the purpose and level of data fusion, it selects the appropriate data fusion structure and algorithm, extracts, cleans, and classifies the data of different sources and different dimensions of the described object, extracts the data features, and combines them, to obtain more accurate and complete information. Multi-source data and multidimensional data are both processing objects of data fusion. Multi-source data is divided according to the source of data, and the division standard of multifaceted information is the attribute of data. It uses multi-source and multidimensional data fusion technology to capture better and analyze data, explore the credibility of multi-source data, and provide valuable information for scientific decision-making.
WiMi conducts multi-level and multifaceted processing of the collection, combination, analysis, processing, and estimation of multi-source data. Its multi-source and multidimensional data fusion technology is divided into data preprocessing and data fusion.
According to Markets, the size of the global multidimensional data market in the artificial scientific market will grow from $5.1 billion in 2019 to $16.2 billion in 2024. Data preprocessing mainly includes data extraction, cleaning, sorting, etc. Data fusion is primarily on selecting appropriate data fusion algorithms according to the different purposes of data fusion and the level and level of data fusion. Multi-source and multidimensional data fusion includes research and understanding of the obtained data, transformation and establishment of data structure, multidimensional data association combination, and establishment of analysis data sets, etc.
In recent years, with the development of technology, image recognition technology has set off a new revolution globally. The multi-source and multidimensional data fusion technology studied by WiMi has a wide range of applications. It is currently mainly used in image recognition, 3-D modeling, target detection, smart city, robot, and other fields.
With the continuous improvement of computer level and the continuous improvement of data fusion algorithm, the degree of universality of data fusion theory is constantly promoted. In this era of big data of information explosion, data has become a strategic asset. Wherever there is information and data, there is a need for data fusion. Under the promotion of the national informatization development strategy in the new era, the digital construction of the smart city, smart transportation, intelligent manufacturing, and other fields is also being steadily promoted, and the digital building in these fields will put forward higher requirements for data fusion processing. The multi-source and multidimensional data fusion technology studied by WiMi Hologram Cloud, Inc. (NASDAQ: WIMI) will be practically applied in more industries and create higher social and economic benefits.
WiMi Develops 3D Holographic LiDAR Diffuse Reflectance Target Detection Chip.
Source
https://www.einnews.com/pr_news/609436828/wimi-develops-3d-holographic-lidar-diffuse-reflectance-target-detection-chip
January 04, 2023, 13:30 GMT
LiDAR (Light Detection And Ranging) is a relatively mature technology. With decades of laser LiDAR technology development, it gradually became more complex from scratch and combined with some new technologies to diversify multi-functional direction. WiMi Hologram Cloud, Inc. (NASDAQ:WIMI), the first share of holographic AR, has been committed to developing holographic technology research and application, and its leading 3D holographic laser LiDAR technology has been used in more and more unmanned and consumer electronics applications.
With the continuous development of laser LiDAR technology and more industry applications, laser LiDAR technology has also produced some technical nature defects, and the diffuse reflection problem is one of the key technical nodes. WiMi has developed a coherent 3D holographic LIDAR diffuse reflective target detection chip to solve the problem.
People know that the surface of many objects looks smooth, such as desktop walls, but they are not flat and messy under the magnifying glass, and light will be irregularly reflected in all directions by the rough surface. Laser LiDAR systems typically use laser pulses to scan and measure holographic 3D point locations in space relative to the sensor. Laser LiDAR systems can naturally emit thousands or tens of thousands of laser pulses per second, creating a holographic 3D point cloud of data. The diffuse reflection will lead to some deviation of the holographic 3D point cloud data, resulting in inaccurate or misjudged results, which is the diffuse reflection problem of the laser LiDAR system.
3D holographic laser LiDAR uses a pulsed laser with timely feedback or solid-state light to measure the point cloud space to reflect the object's spatial position. 3D holographic laser LiDAR system's characterization requirements can be adjusted to compensate for the diffuse reflection of the sensor's pulsed or solid-state level within a fuzzy emissivity dynamic range, which is the compensation adjustment of the spectral reflectance data in the complex environment characterization. The adjustment contains a series of complex algorithms, such as
- power compensation for laser LiDAR,
- point cloud data gain, and
- noise reduction, such as substantial light interference.
When LiDAR faces the sun's direction, if there is no suitable design processing system, it can easily lead to much apparent noise in the LiDAR point cloud. At the same time, the special diffuse reflection of particular objects also absorbs light waves, producing excellent point cloud data voids.
WiMi’s coherent 3D holographic LiDAR diffuse reflectance target detection chip can perform spectral reflectance data judgment. Through complex algorithms, the characterization of objects with different reflectance under a wide range of complex environmental conditions is confirmed and combined with calibrated spectral reflectance data, precisely calibrated spectral reflectance. The laser LiDAR's range can be accurately measured to minimize interference with diffuse reflectance targets.
WiMi is also doing further technology validation and hopes that the technology base can assist the system of 3D holographic laser LiDAR and solve some other problems of laser LiDAR. For example, in the common trailing effect, laser LiDAR launch a pulse usually return, but in practice, the pulse signal has a certain dispersion angle, a large number of pulses often occur a pulse hit the front and rear two items, it will form two echoes, which will lead to distance discrimination error. Through the complex spectral reflectance data analysis of this point cloud data, LiDAR can accurately map the target area and calibrate the point cloud data. In addition, the interference of highly reflective objects with the point cloud data has been a technical difficulty for laser LiDAR.
When laser LiDAR scans highly reflective objects, the output point cloud data may form another object of similar size and shape in other locations besides the actual site due to the mirror emission effect of highly reflective objects, causing a bad mirror image in the point cloud data. People hope to solve some of these problems plaguing laser LiDAR by the algorithm of coherent 3D holographic LiDAR diffuse reflection target detection.
People can see that traditional LiDAR has been popularized in the primary stage of autonomous driving (for example, the adaptive cruise control system of cars), which used to be configured only in high-end vehicles, but now it has almost become the standard equipment of most cars. The 3D holographic laser LiDAR technology can provide accurate feedback of spatial position and relative distance information to detect various objects and image them with spatial 3D holographic point cloud data, not only in the field of autonomous driving but also in terrain modeling, spatial measurement, disaster warning and many other fields required by space technology.
If 3D holographic laser LiDAR is combined with XR (extended reality) technology, IoT technology, location and artificial intelligence machine learning (AI/ML), and advanced networks (5G/6G), more new industry applications may be born. So in the future, 3D holographic laser LiDAR technology still has a lot of room for technological progress and a broad application market.
China Software International (00354.HK) joins hands with MCC Baosteel to create an intelligent unmanned driving system to empower innovative and green development of the steel industry with digital intelligence.
Source
https://cj.sina.com.cn/articles/view/5115326071/130e5ae7702001ucwd
January 10, 2022
China Software International (00354.HK) announced that the company has recently signed a contract with MCC Baosteel Technology Service Co., Ltd. Human driving system technology research and development contract. The company creates an overall solution based on advanced technologies such as L4 autonomous driving technology, vehicle-road coordination technology, remote control technology, and cloud platform technology, helping Zhanjiang Iron and Steel realize the unmanned intelligent scene of scrap steel transfer.
During the "14th Five-Year Plan" period, the iron and steel industry continued to digitally transform in the direction of intelligent equipment operation and maintenance, transparent production processes, globalized supply chain coordination, and clean environmental protection management. an important indicator of the level of The intelligent unmanned steel scrap yard unmanned system will fully open up the Zhanjiang iron and steel resource utilization system platform, realize the digital operation of the entire chain of scrap steel batching transportation, create an all-weather, full-process scrap steel batching transportation system, and realize unmanned transfer vehicles, cloud platforms and The integrated application of vehicle-road coordination technology realizes efficient production and reduces operating costs, creating a new benchmark for green and intelligent manufacturing in the steel industry.
This cooperation is a strong alliance between the company and MCC Baosteel under the digital, intelligent and green development of the steel industry. It is the company's grasp of the "smart manufacturing" reform window period of the steel industry, and the use of artificial intelligence, automatic driving and vehicle-road collaboration technologies to empower A powerful embodiment of the steel industry. In the future, the company and MCC Baosteel will continue to deepen the cooperative relationship between the two parties, innovate the concept of cooperation, broaden the scope of cooperation, and provide more benchmarking demonstration projects for the digital and intelligent transformation and upgrading of the steel industry. The company will also take this cooperation as an opportunity to provide more industrial customers with green technology innovation supply, and use technology innovation to help thousands of industries achieve green and low-carbon transformation, and make greater contributions to the country's "double carbon" goal.
WiMi Designs Holographic AI Image Recognition-Based Obstacle Edge Detection Software.
Source
https://www.newstrail.com/wimi-designs-holographic-ai-image-recognition-based-obstacle-edge-detection-software/
December 4, 2022
As a large-capacity, high-density public transportation, the safety of urban rail transit is directly related to the safety of passengers’ lives. To ensure this system’s safe and efficient operation, a safe and reliable operation control system is necessary. Driverless rail transit is a transportation mode that can achieve full automation without driver intervention. With the progress of science and technology, unmanned and automated has become the development trend in the field of transportation, and the application of unmanned technology in China’s railroad construction is becoming more and more extensive. In the automatic traveling urban rail transit, the automated obstacle detection system is an essential function of the intelligent train, which can replace the driver’s observation of the obstacles on the track. Once the invasion of foreign objects is found, the control center and the driver can be notified in real-time, and the abnormal type and distance can be detected simultaneously to improve the safety and reliability of operation and reduce the operation and maintenance costs.
Active obstacle detection system uses a different technology than traditional train control systems. It applies the environmental perception technology of the automotive field. The sensors used are chosen to be consistent with the LIDAR, millimeter-wave radar, and camera used in automotive autonomous driving. And the machine learning algorithm used in automotive autonomous driving is used in the perception algorithm for target detection and classification. Multi-sensor fusion technology of the automotive field is also applied in the system.
WiMi Hologram Cloud, Inc. (NASDAQ:WIMI) R&D team developed unmanned rail vehicle obstacle edge detection software based on holographic image recognition technology, which is used to improve the recognition efficiency of track obstacle detection.WiMi’s R&D team added artificial intelligence deep learning technology to the obstacle detection software. Using a combination of long-distance track and near-distance obstacles helps increase the dataset of artificial intelligence image recognition technology for improving the detection function of long-distance objects of unmanned rail vehicle obstacle detection system and realizes the part of a more intelligent automatic judgment of obstacles and distance in actual operation.
Detecting tracks at long distances is more complicated than short-range detection:
the complex shape of the tracks hinders the pre-calculated track model, and the resolution is so low that it is difficult to distinguish the track edges from the structures of neighboring objects. WiMi’s R&D team uses an iterative analysis algorithm to expand the image detection sensor’s distance gradually. The position is calculated by iteration, which is used as the new position of the next target, and the further distance target is constantly obtained. The results obtained from a small range are used as the starting point for the next partition. In each iteration, the detected trajectory is projected onto a new sub-region, and then the corresponding matching ratio score is calculated based on the change of that sub-region.
In the future, WiMi’s R&D team will also optimize the unmanned track obstacle recognition system in several aspects. This would include optimizing the long-tail distribution of the dataset, enhancing the generalization capability of the dataset, adding more detection scenarios and obstacle types, optimizing the small target detection problem, and using cross-domain datasets to verify the generalization performance of the model, adopting multimodal detection methods, designing rail transit obstacle detection models based on computer vision, LIDAR, millimeter-wave radar and other multi-sensor fusion technologies, etc. With the development of driverless technology, new rail transportation methods will directly affect our future travel and bring more convenient new means of transportation for people’s life.
Siyata's Next Generation Push-to-Talk Over Cellular SD7 Device to be Launched Across T-Mobile IoT Data Network.
Source
https://finance.yahoo.com/news/siyatas-next-generation-push-talk-130000004.html
January 9, 2022
- T-Mobile is the second-largest wireless carrier in the U.S. with more than 111.7 million customers.
https://s29.q4cdn.com/310188824/files/doc_financials/2022/q3/TMUS-09_30_2022-EX-99.2-vFinal.pdf
- SD7 now approved on all major U.S. wireless carriers including AT&T Inc., Verizon Communications Inc. and United States Cellular Corporation (UScellular™).
- Siyata believes that industry-changing Push-to-Talk Over Cellular device offers a far superior solution to competitive Land-Based Radio (LMR) technologies.
https://www.rrmediagroup.com/Features/FeaturesDetails/FID/930
- SD7 targets the multi-billion-dollar first responder and enterprise markets.
Siyata Mobile Inc. (NASDAQ:SYTA)(NASDAQ:SYTAW), a global vendor of Push-to-Talk over Cellular ("PoC") devices and cellular signal booster systems, is pleased to announce that T-Mobile US, Inc., the second largest wireless carrier in the U.S. with more than 111.7 million customers, will launch Siyata's rugged SD7 device onto its Internet of Things (IoT) data network. T-Mobile is expected to begin selling the SD7 to its broad enterprise customer base beginning in the Company's first quarter of 2023. The SD7 was developed to disrupt and replace the multi-billion-dollar Land Mobile Radio (LMR) industry.
"With the addition of T-Mobile, we are significantly expanding our addressable market and entering 2023 in a strong position with all major U.S. wireless carriers now offering SD7 as well as additional partnerships internationally," said Marc Seelenfreund, Siyata CEO. "This relationship with T-Mobile strengthens our network compatibility and further expands our ability to reach first responders and enterprise personnel with a reliable PoC device that can operate extremely well in tough working environments."
Seelenfreund continued,
"The SD7 is the perfect upgrade from land mobile radio devices, which often have limited coverage, restricted functionality and high startup costs. The SD7 solves those problems, delivering a far superior solution to the multi-billion LMR industry."
The SD7 brings communications into the 21st century and provides the Company's first responder and enterprise clients a simple, easy-to-use rugged, Android-based, Push-To-Talk device with excellent sound quality that operates over the high-bandwidth 4G LTE network, providing consistent connectivity across the US. Its IP68 rating, resistance to water and dust, drop protection and robust battery make it well suited for use in harsh environments. Importantly, there is no need to invest in infrastructure such as radio towers or repeaters.
About Siyata Mobile
Siyata Mobile Inc. is a B2B global vendor of next generation Push-To-Talk over Cellular devices and cellular booster systems. Its portfolio of in-vehicle and rugged devices enable first responders and enterprise workers to instantly communicate, over a nationwide cellular network of choice, to increase situational awareness and save lives.
Its portfolio of enterprise grade and consumer cellular booster systems enables first responders and enterprise workers to amplify cellular signals in remote areas, inside structural buildings where signals are weak and within vehicles for the maximum cellular signal strength possible.
Siyata's common shares trade on the Nasdaq under the symbol "SYTA" and its previously issued warrants trade on the Nasdaq under the symbol "SYTAW."
For more information please look at:
https://www.siyatamobile.com/
Investor Relations (Canada):
Kin Communications
1-866-684-6730
SYTA@kincommunications.com
Investor Relations (United States):
Brett Maas
Hayden IR
SYTA@Haydenir.com
646-536-7331
Siyata Mobile Corporate:
Daniel Kim, VP of Corporate Development
Siyata Mobile Inc.
daniel@siyata.net
Let the Game begin.....
The CFP National Championship will take place today, January 9, 2023 at SoFi Stadium in Inglewood, California.
Remember:
College Football Playoff to Deliver Mobile Augmented Reality Experience for Fans Via Technology from ImagineAR, SIDEARM Sports.
Source
https://finance.yahoo.com/news/college-football-playoff-deliver-mobile-130000310.html
Fans Can Capture Videos and Photos with the Virtual College Football Playoff National Championship Trophy using the Official College Football Playoff Mobile App.
https://collegefootballplayoff.com/sports/2017/10/31/cfbplayoff-app.aspx
Explanation: AI
Twenty-five years of digitization: Ten insights into how to play it right
https://www.mckinsey.com/~/media/mckinsey/business%20functions/mckinsey%20digital/our%20insights/twenty-five%20years%20of%20digitization%20ten%20insights%20into%20how%20to%20play%20it%20right/mgi-briefing-note-twenty-five-years-of-digitization-may-2019.pdf
The state of AI in 2020
https://www.mckinsey.com/capabilities/quantumblack/our-insights/global-survey-the-state-of-ai-in-2020
The state of AI in 2021
https://www.mckinsey.com/capabilities/quantumblack/our-insights/global-survey-the-state-of-ai-in-2021
The state of AI in 2022—and a half decade in review
https://www.mckinsey.com/capabilities/quantumblack/our-insights/the-state-of-ai-in-2022-and-a-half-decade-in-review
The data-driven enterprise of 2025
https://www.mckinsey.com/capabilities/quantumblack/our-insights/the-data-driven-enterprise-of-2025
Insights on Artificial Intelligence
https://www.mckinsey.com/capabilities/quantumblack/our-insights
Applying artificial intelligence for social good
https://www.mckinsey.com/featured-insights/artificial-intelligence/applying-artificial-intelligence-for-social-good
and
https://www.mckinsey.com/~/media/mckinsey/featured%20insights/artificial%20intelligence/applying%20artificial%20intelligence%20for%20social%20good/mgi-applying-ai-for-social-good-discussion-paper-dec-2018.pdf
An executive’s guide to AI
https://www.mckinsey.com/capabilities/quantumblack/our-insights/an-executives-guide-to-ai
The executive’s AI playbook
https://www.mckinsey.com/capabilities/quantumblack/our-insights/the-executives-ai-playbook
The potential value of AI—and how governments could look to capture it
https://www.mckinsey.com/industries/public-and-social-sector/our-insights/the-potential-value-of-ai-and-how-governments-could-look-to-capture-it
How artificial intelligence can deliver real value to companies
https://www.mckinsey.com/capabilities/quantumblack/our-insights/how-artificial-intelligence-can-deliver-real-value-to-companies
Why digital trust truly matters
https://www.mckinsey.com/capabilities/quantumblack/our-insights/why-digital-trust-truly-matters
NOTES FROM THE AI FRONTIER: INSIGHTS FROM HUNDREDS OF USE CASES
https://www.mckinsey.com/~/media/mckinsey/featured%20insights/artificial%20intelligence/notes%20from%20the%20ai%20frontier%20applications%20and%20value%20of%20deep%20learning/notes-from-the-ai-frontier-insights-from-hundreds-of-use-cases-discussion-paper.pdf
Notes from the AI frontier: Applications and value of deep learning
https://www.mckinsey.com/featured-insights/artificial-intelligence/notes-from-the-ai-frontier-applications-and-value-of-deep-learning
Notes from the AI frontier: Modeling the impact of AI on the world economy
https://www.mckinsey.com/featured-insights/artificial-intelligence/notes-from-the-ai-frontier-modeling-the-impact-of-ai-on-the-world-economy
Getting to scale with artificial intelligence
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/getting-to-scale-with-artificial-intelligence
Leading your organization to responsible AI
https://www.mckinsey.com/capabilities/quantumblack/our-insights/leading-your-organization-to-responsible-ai
Succeeding in the AI supply-chain revolution
https://www.mckinsey.com/industries/metals-and-mining/our-insights/succeeding-in-the-ai-supply-chain-revolution
Generative AI is here: How tools like ChatGPT could change your business
https://www.mckinsey.com/capabilities/quantumblack/our-insights/generative-ai-is-here-how-tools-like-chatgpt-could-change-your-business
AI-driven operations forecasting in data-light environments
https://www.mckinsey.com/capabilities/operations/our-insights/ai-driven-operations-forecasting-in-data-light-environments
Insurance 2030—The impact of AI on the future of insurance
https://www.mckinsey.com/industries/financial-services/our-insights/insurance-2030-the-impact-of-ai-on-the-future-of-insurance
Smartening up with artificial intelligence
https://www.mckinsey.com/industries/semiconductors/our-insights/smartening-up-with-artificial-intelligence
Why businesses need explainable AI—and how to deliver it
https://www.mckinsey.com/capabilities/quantumblack/our-insights/why-businesses-need-explainable-ai-and-how-to-deliver-it
Scaling AI like a tech native: The CEO’s role
https://www.mckinsey.com/capabilities/quantumblack/our-insights/scaling-ai-like-a-tech-native-the-ceos-role
Reimagining your business for AI
https://www.mckinsey.com/capabilities/quantumblack/our-insights/reimagining-your-business-for-ai
Executive’s guide to developing AI at scale
https://www.mckinsey.com/capabilities/quantumblack/our-insights/executives-guide-to-developing-ai-at-scale#intro
Getting to know—and manage—your biggest AI risks
https://www.mckinsey.com/capabilities/quantumblack/our-insights/getting-to-know-and-manage-your-biggest-ai-risks
Derisking AI by design: How to build risk management into AI development
https://www.mckinsey.com/capabilities/quantumblack/our-insights/derisking-ai-by-design-how-to-build-risk-management-into-ai-development
Rethinking AI talent strategy as automated machine learning comes of age
https://www.mckinsey.com/capabilities/quantumblack/our-insights/rethinking-ai-talent-strategy-as-automated-machine-learning-comes-of-age
ARTIFICIAL INTELLIGENCE - THE NEXT DIGITAL FRONTIER?
https://www.mckinsey.com/~/media/mckinsey/industries/advanced%20electronics/our%20insights/how%20artificial%20intelligence%20can%20deliver%20real%20value%20to%20companies/mgi-artificial-intelligence-discussion-paper.pdf
Artificial intelligence: Implications for China
https://www.mckinsey.com/featured-insights/china/artificial-intelligence-implications-for-china
Digital China: Powering the economy to global competitiveness
https://www.mckinsey.com/featured-insights/china/digital-china-powering-the-economy-to-global-competitiveness
The next frontier for AI in China could add $600 billion to its economy
https://www.mckinsey.com/capabilities/quantumblack/our-insights/the-next-frontier-for-ai-in-china-could-add-600-billion-to-its-economy
Power up: How Southeast Asia’s largest bank is becoming AI-fueled
https://www.mckinsey.com/capabilities/quantumblack/our-insights/power-up-how-southeast-asias-largest-bank-is-becoming-ai-fueled
Winning with AI is a state of mind
https://www.mckinsey.com/capabilities/quantumblack/our-insights/winning-with-ai-is-a-state-of-mind
The promise and challenge of the age of artificial intelligence
https://www.mckinsey.com/featured-insights/artificial-intelligence/the-promise-and-challenge-of-the-age-of-artificial-intelligence
How to ensure artificial intelligence benefits society: A conversation with Stuart Russell and James Manyika
https://www.mckinsey.com/featured-insights/artificial-intelligence/how-to-ensure-artificial-intelligence-benefits-society-a-conversation-with-stuart-russell-and-james-manyika
Breaking through data-architecture gridlock to scale AI
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/breaking-through-data-architecture-gridlock-to-scale-ai
Tackling bias in artificial intelligence (and in humans)
https://www.mckinsey.com/featured-insights/artificial-intelligence/tackling-bias-in-artificial-intelligence-and-in-humans
Tackling Europe’s gap in digital and AI
https://www.mckinsey.com/~/media/mckinsey/featured%20insights/artificial%20intelligence/tackling%20europes%20gap%20in%20digital%20and%20ai/mgi-tackling-europes-gap-in-digital-and-ai-feb-2019-vf.pdf
and
https://www.mckinsey.com/featured-insights/artificial-intelligence/tackling-europes-gap-in-digital-and-ai
What the draft European Union AI regulations mean for business
https://www.mckinsey.com/capabilities/quantumblack/our-insights/what-the-draft-european-union-ai-regulations-mean-for-business
Did Artificial Intelligence Just Get Too Smart?
https://www.nytimes.com/2022/12/16/podcasts/the-daily/chatgpt-openai-artificial-intelligence.html?showTranscript=1
Jobs lost, jobs gained: What the future of work will mean for jobs, skills, and wages
https://www.mckinsey.com/featured-insights/future-of-work/jobs-lost-jobs-gained-what-the-future-of-work-will-mean-for-jobs-skills-and-wages
Kai-Fu Lee’s perspectives on two global leaders in artificial intelligence: China and the United States
https://www.mckinsey.com/featured-insights/artificial-intelligence/kai-fu-lees-perspectives-on-two-global-leaders-in-artificial-intelligence-china-and-the-united-states
Computer learns to detect skin cancer more accurately than doctors
https://www.theguardian.com/society/2018/may/29/skin-cancer-computer-learns-to-detect-skin-cancer-more-accurately-than-a-doctor
Tech Giants Are Paying Huge Salaries for Scarce A.I. Talent
https://www.nytimes.com/2017/10/22/technology/artificial-intelligence-experts-salaries.html
Google’s New Gadgets Come With a Big Helping of A.I.
https://www.nytimes.com/2017/10/04/technology/google-pixel-hardware.html
Five insights about harnessing data and AI from leaders at the frontier
https://www.mckinsey.com/capabilities/quantumblack/our-insights/five-insights-about-harnessing-data-and-ai-from-leaders-at-the-frontier
FORM 6-K | Report of Foreign Issuer
Source
https://seekingalpha.com/filing/7106314
Dec. 30, 2022 4:15 PM ET
On December 26, 2022, Siyata Mobile Inc., a British Columbia (Canada) global vendor of Push-to-Talk over Cellular devices and of cellular signal booster systems, was notified that there had occurred a significant infiltration of water into its warehouse premises located at 1751 Richardson, Suite 2207, Montreal, Quebec, Canada, due to a leaking water pipe in the floor above (which floor is not leased by Siyata). Upon inspection of the premises, the Company believes that there could be substantial damage to its warehoused inventory of communication devices and signal boosters, the dollar value of which is presently not determinable. The Company is continuing to assess the potential damages, which will require a special inspection to determine the condition of the merchandise. Management believes that any damage is covered by its current property insurance policy and intends to file a claim with its commercial property insurer whose policy covers the selling price of damaged inventory.
Because the Company stores similar inventory in another location, it does not believe that this event will result in any interruption of its sales activities, and thus future revenues should not be impacted by the water damage to the subject inventory. Only new, non-damaged, quality products will be shipped to Siyata’s customers.
From a balance sheet and income statement perspective, any damaged inventory will be considered impaired and written off (expensed) on the Company’s income statement as an impairment due to the water damage, and the inventory values will be reduced on the balance sheet by the amount of the damages in the fourth quarter of 2022. Any insurance proceeds receivable will be recorded as income in the quarter (likely in 2023) when it is at least virtually certain that the proceeds to be paid by the Company’s insurer have been agreed by both parties. Under international accounting standards, insurance proceeds are accounted for as “reimbursements” and would be recognized as a separate asset (with related income) when the recovery is virtually certain.
Pursuant to the requirements of the Securities Exchange Act of 1934, the Registrant has duly caused this report to be signed on its behalf by the undersigned hereunto duly authorized.
Date: December 30, 2022 SIYATA MOBILE INC.
By: /s/ Marc Seelenfreund
Name: Marc Seelenfreund
Title: Chief Executive Officer
WiMi Creates Intelligent Production Line With The Layout Of The Holographic Sensors.
Source
https://www.newstrail.com/wimi-creates-intelligent-production-line-with-the-layout-of-the-holographic-sensors/
January 3, 2023
With the rapid development of global digital technology, a series of high and new technologies of XR (Extended reality) technology, Internet of Things (IoT) technology, geographical location and sensors, artificial intelligence machine learning (AI / ML), and advanced network (5G / 6G) are accelerating the era of cross-border integration of global information technology. The intelligent sensor is an important means of interaction between robots and mechanical equipment and the natural environment and is also the primary source of digital information for robots and mechanical equipment. It is one of the cores and foundations for the future development of the digital information technology industry. WiMi Hologram Cloud, Inc. (NASDAQ:WIMI) also focuses on the layout of holographic six-dimensional sensors in intelligent sensors.
Sensor technologies have experienced many years of development and can generally be divided into three generations.
- The first generation is a structural sensor using the change of structural parameter numbers into a signal.
- The second generation is the solid sensor composed of magnetic materials, dielectric, semiconductors, and other solid components.
- The third generation of sensors are intelligent sensors; intelligent sensor application fields mainly include consumer electronics, smart robots, automotive/industrial manufacturing, medical equipment, and many other areas.
WiMi Hologram Cloud’s holographic six-dimensional sensor can accurately measure the 3D orthogonal force and 3D orthogonal moment in any spatial direction:
- Fx,
- Fy,
- Fz,
- Mx,
- My, and
- Mz.
It is the highest dimensional force perception sensor at present. The rich force measurement information and high measurement accuracy can provide feedback and comprehensive force perception information.
WiMi’s Six-dimensional sensor can make industrial equipment or robots obtain precise “tactile” perception, provide substantial assistance for industrial automation products, and be applied in intelligent manufacturing and intelligent robot assembly scenarios. It can solve the problems of collision detection, flexible dragging, precision control, and intelligent collaboration and is the core component of realizing the adjustable force control of industrial robots.
For example, deploying holographic six-dimensional sensors in intelligent manufacturing can enhance the joint’s flexibility. The internal algorithm of holographic six-dimensional sensors will decouple the interference between forces and moments in various directions, making the force measurement more accurate. Not only can the force be accurately measured, but also after obtaining the torque information, user can also use the torque information to calculate the attitude of the stressed parts and detect whether the torque is within the safe range. The holographic six-dimensional sensor is installed on the end of the manipulator. Appropriate force and travel are given for handling and installation in the manipulator handling.
In the anti-collision warning, the power is cut off through the advanced feedback of holographic laser LiDAR and industrial camera to avoid damage to people and equipment. For example, if people want to hold an irregular screw with hands, the brain will instruct them how to get it at the best and most comfortable route and angle and calculate how much force to get it. When the hand touches the screw, people will feel feedback and pick it up with appropriate strength to avoid damage. The holographic six-dimensional sensor is the tactile nerve of the robot. The combination of holographic six-dimensional sensors, industrial intelligence, and holographic laser LiDAR can be applied to robots’ intelligent, flexible assembly operation.
In addition, it is worth mentioning that WiMi Hologram Cloud, Inc. (NASDAQ: WIMI) has been committed to the research, development, application, and development of holographic technology and has accumulated holographic digital technology for many years. It is the technology leader in China’s holographic industry, has obtained more than 1000 holographic-related patents, and deeply combines holographic technology with various industries. The holographic six-dimensional sensor can be combined with artificial intelligence, holographic laser LiDAR, and industrial camera. The high dimensional sensor and machine vision and precision force control technology realize the movement path planning and control, precision precision precision environment, with high stability, continuous operation ability, and ability to adapt to the environment. It can be applied in force control precision assembly, force control precision grinding, crash testing, rehabilitation robot, humanoid robot, and other industries.
WiMi develops Load Balancing Algorithm-Based 5G Remote Robotic IoT Control System.
Source
https://www.newstrail.com/wimi-develops-load-balancing-algorithm-based-5g-remote-robotic-iot-control-system/
January 3, 2023
The new generation of rapid development of information technologies such as artificial intelligence, the Internet of Things, big data, intelligent robots and artificial intelligence, advanced manufacturing, mobile networks, and other technologies is driving the revolution in production and lifestyle. From smart homes and smart security to smart agriculture and industrial IoT, IoT has penetrated every aspect of life, bringing significant changes to people’s work and life. The demand for IoT control system is also getting higher and higher, and IOT control system has the characteristics of diversification, openness, extensiveness, and intelligence.
Combining with user needs, WiMi Hologram Cloud, Inc. (NASDAQ:WIMI) has developed a 5G remote robotic IoT control system based on a load balancing algorithm, which realizes comprehensive intelligent management and real-time monitoring of remote robots. The 5G remote robot networking control system is expected to achieve the control goal by collecting, transmitting, analyzing, and sending control commands to the items’ data and implementing remote monitoring and management of the equipment. 5G remote robot networking control system features strong security, easy installation and operation, high stability, diverse management, real-time, low cost, high compatibility, and low power consumption.
WiMi’s R&D team uses a double-level structure in the IoT control system:
- the low-level network controller controls the gateway and a programmable logic controller (PLC);
- the high-level controller is a cloud-based platform. Most of the information processing tasks and user service requests in the system are made by the cloud, and the controller functions are then mainly realized by the high-level controller, while the low-level controller can be weakened as a gateway. When most of the system’s information processing tasks and user service requests are made by the low-level controller, the cloud platform where the high-level controller is located can be weakened into a database management platform. When the control strategy is complex, the relatively independent control strategy can be implemented by the low-level controller, while the high-level controller does the system-level strategy or the coordination between the low-level controllers.
From local closed-loop control to network control during the development of 5G remote machine character IoT control system, time delay, bandwidth, and throughput are essential factors affecting its performance. Time delay parameters are particularly prominent, especially in the IoT environment. Sensors are the bottom layer of IoT, distributed in various fields, and the collected data are very complex. If a massive amount of information is transmitted to each application layer through the network, it will cause overload to the network layer, thus increasing the network latency; in addition, how the control signals sent to the actuators are delivered quickly and timely through the network also puts requirements on the latency index. Therefore, designing network control algorithms to effectively compensate for the network delay and ensure the stability and robustness of the whole control system has been a hot issue for research.
WiMi R&D team applies a load-balancing algorithm to the remote robotic networking control system, which evenly distributes requests sent from outside to multiple operating units (servers, middleware) in a symmetric structure through some load-sharing technique. In contrast, the operating unit receiving the proposal responds to the request independently. Load balancing can evenly distribute requests to the array of operating units, thereby providing fast access to essential data, solving the problem of a large number of concurrent access services, and solving the issues of high performance, single point of failure (high availability), and scalability (horizontal scaling).
Load-balancing algorithms have high concurrency, scalability, high availability, and security.
High concurrency:
Load balancing improves an application cluster’s concurrent processing capability (throughput) by algorithmically adjusting the load and distributing the workload of each node in the application cluster as evenly as possible.
Scalability:
Adding or reducing the number of servers is controlled by load balancing for distribution. This allows the application cluster to be scalable.
High availability:
The load balancer monitors candidate servers and automatically skips when a server is unavailable, distributing requests to available servers. This makes the application cluster highly available.
Security protection:
Load balancing software or hardware provides security features, such as denylist and safelist processing, firewall, anti-DDos attack, etc.
The load balancing algorithm-based 5G remote robotic IoT control system developed by WiMi optimizes and improves the IoT control system from the network level and control theory level to improve the control efficiency of remote devices and save a lot of manpower and material resources for users. With the development of IoT technology and the continuous improvement of control theory, the system will be applied to a broader range of fields, such as smart homes, smart security, smart agriculture, industrial IoT, etc. Intelligence, security, real-time, and low energy consumption are the goals and focuses pursued by future IoT control systems.
Symbiotic Intelligence on the Cloud in the Future Chinasoft International Cloud Intelligence Headquarters Building Project Commencement Ceremony was grandly held in Longgang District, Shenzhen.
Source
https://www.chinasofti.com/news/2536.htm
December 30, 2022
On the morning of December 29, 2022, the commencement ceremony of the Chinasoft International Cloud Intelligent Headquarters Building project was grandly held at the project site on Bantian Banfu Road, Longgang District, Shenzhen. Tang Zhenming, executive director and senior vice president of Chinasoft International Co., Ltd. (hereinafter referred to as "Chinasoft International"), delivered a congratulatory speech on behalf of Chinasoft International. Relevant persons in charge of Chinasoft International, as well as leading groups and main persons in charge of Beijing Construction Institute, China Construction First Bureau, Beijing Yuanda, Jiangsu Jianke, and Luban Construction Supervision Unit attended the groundbreaking ceremony and witnessed the grand occasion of the ceremony.
In his speech, Tang Zhenming especially thanked the Shenzhen Municipal Government, Longgang District Government, as well as design, construction and construction units for their strong support. He pointed out that Shenzhen has become an important business base of Chinasoft International. The high-growth business, intelligent networking and cloud intelligence, are deeply bound to Shenzhen. The "heavy weapon of the country, the new cutting-edge of the city" starts from Shenzhen, and Shenzhen has also become a window for Chinasoft International to enter the historical opportunities of the development of the Guangdong-Hong Kong-Macao Greater Bay Area. After the building is completed, ChinaSoft International will be even more powerful and reach new heights!
The dump trucks and excavators sounded their horns at the same time, the salute was fired, and the lion dance was jubilant, creating a warm, festive and solemn atmosphere. After the foundation stone laying ceremony, the project is about to enter the intensive construction stage and is expected to be completed in 2025. After completion, it will become Chinasoft International's cloud intelligence headquarters office research and development base in Shenzhen. Through the layout of basic cloud services, manufacturing cloud services, overseas cloud services and other sectors, promote the development of cloud computing technology in Shenzhen, improve the level of cloud applications and services, and jointly build Shenzhen's new generation of information technology industry highlands with Longgang District.
The Cloud Intelligent Headquarters Building is invested and constructed by Chinasoft International. The total construction area of ??the project is about 78,000 square meters, the building height is 99.9 meters, and there are 23 floors above ground and 3 floors underground. The project adopts the architect-responsible construction mode. The Beijing Academy of Science and Technology Innovation Center team is guided by the integration of green design-green construction-smart operation and maintenance operations, using digital technology combined with years of engineering management experience, through overall planning design, production, construction, Operate the collaborative cooperation among the entire industrial chain, optimize resource allocation, build a green construction industrial chain, improve the overall industrialization level of the whole process, improve quality and efficiency, and ensure green design, intelligent construction, and intelligent operation.
As a leading enterprise in China's software service industry, Chinasoft International is committed to helping corporate customers build a digital foundation, share technological dividends, and move towards digital transformation with high-quality and inclusive full-stack IT services. The establishment of the cloud headquarters base in Longgang, Shenzhen is an important step for Chinasoft International to integrate into the strategic planning of the Guangdong-Hong Kong-Macao Greater Bay Area and lead the development of the era of cloud intelligence. In the future, ChinaSoft International will continue to uphold the concept of "sincerity, perseverance, struggle-oriented, customer success, creation and sharing, and common growth", contribute Shenzhen's strength to the construction of digital China, and make unremitting efforts to build China's influence in global IT services struggle!
China Software International (00354) joined hands with Shenzhen Kaihong and Guochuang Center to jointly create a new generation of smart terminal equipment for home appliances in the whole house and promote the domestic application of smart operating system capabilities for home appliances in the whole house.
Source
https://finance.sina.com.cn/stock/hkstock/ggscyd/2022-12-28/doc-imxyfutf2631100.shtml
December 28, 2022 at 20:29 Zhitong Finance Network
China Software International (00354) announced that recently, the company joined hands with Shenzhen Kaihong Digital Industry Development Co., Ltd. The Innovation Center focuses on the high-end, intelligent, and scenario-based needs of the home appliance industry, jointly creates a new generation of "intelligent terminal equipment for home appliances in the whole house", and jointly promotes the open source Hongmeng IoT operating system and solutions in The wide application in the field of smart home appliances creates a demonstration benchmark for innovative products in the core operating system technology of smart home appliances.
The company, Shenzhen Kaihong, and Guochuang Center give full play to their respective advantages in industrial resources, technology, and talents, and jointly launch the "intelligent central control screen for home appliances in the whole house" product through the traction of smart home appliances, integrating KaihongOS to provide systems and provide intelligent In-depth customization of home appliance application scenarios. This smart central control screen is based on KaihongOS's capabilities of networkless control, non-sensing network distribution, audio and video streaming, audio and video calls, and screen projection anti-control. The operation of the equipment is more accurate, more convenient and more stable, and it truly realizes intelligent and intelligent management.
The smart central control screen of the whole house home appliance is the benchmark product in the field of smart home appliances after the company signed a strategic cooperation agreement with Shenzhen Kaihong and Guochuang Center. important results of the application. In the future, the company will actively lay out a wider supply chain for the localization of intelligent terminal systems, gather more ecological partners around OpenHarmony, provide more intelligent products and solutions, expand new industry market space, and accelerate the localization of various industries Intelligent upgrade.
Chinasoft International won the "Best TMT Company" and "Best IR Team" awards.
Source
https://www.chinasofti.com/news/2534.htm
December 26, 2022
On December 19-20, 2022, the 7th "Zhitong Finance and Capital Market Annual Conference" was grandly opened in Hangzhou. Among them, "listed company selection and awards" is a major part of the annual meeting, and its weather vane significance has attracted widespread attention from global investors. This year's "listed company selection" attracted many Hong Kong and US listed companies to apply, covering not only traditional industries such as energy, finance, automobiles, and industrial manufacturing, but also emerging industries leading China's economic transformation such as communications, chip manufacturing, the Internet, and pharmaceuticals and biology. Chinasoft International Co., Ltd. (00354.HK) stood out from more than 1,000 companies listed on the Hong Kong and US stocks and achieved great results again, winning two awards of "Best TMT Company" and "Best IR Team".
This "listed company selection" adheres to the principle of fairness and openness. It is led by a number of Chinese securities companies, and a number of economists, a number of well-known Hong Kong securities companies and investment institutions form an expert committee. Factors such as corporate governance, business model, market influence and capital market performance are scored, and the corresponding public voting weights are used to select the winners. Chinasoft International, together with industry leaders such as TCL Electronics, Tianqi Lithium, and China Gas, was included in the list of winners, and is the only company that has won both the "Best TMT Company" and "Best IR Team" awards this year.
Chinasoft International adheres to the spirit of "Frankness, Preservation, Perseverance", step by step, never pursues fantasy, never pursues falsehood. Since its listing, the company has grown into a domestic software and information technology company with a compound annual growth rate of nearly 30% of its revenue. Service leading enterprises. It has been selected as Gartner's global IT service market share ranking TOP100 for four consecutive years, and its brand influence continues to increase. In the first half of this year, the company's revenue exceeded 10 billion for the first time, setting a new high. In recent years, the company has followed the wave of global digital transformation, accumulated years of experience in the development of the software industry, leveraged the advantages of lean software engineering capabilities, focused on digital intelligence empowerment, and deeply cultivated the "black land" of open source Hongmeng. The ability to lay out the big scene of the digital economy, accelerate the process of Xinchuang replacement and upgrading, build a safe and controllable, intelligent IoT new pattern, and create a digital transformation service expert brand.
This time the company won the two awards of "Best TMT Company" and "Best IR Team", which demonstrates the high recognition of global investors for the company's intrinsic value, business development, performance growth, corporate governance and capital market communication. "Walking in the vast expanse is boundless, sailing but the trade wind", looking forward to the future, the company will continue to stand in parallel with super integrators, create win-win results with strategic partners, be the main force in the construction of digital China, and move towards "very unique in the world" "The world-class IT service leader enterprise goal forge ahead!
Chinasoft International Education and Training Development Board passed the OpenHarmony Compatibility Evaluation.
Source
https://www.chinasofti.com/news/2533.htm
December 26, 2022
Recently, the education and training development board launched by Chinasoft International Co., Ltd. successfully passed the compatibility evaluation of OpenAtom OpenHarmony 3.1 Release, and was awarded the OpenHarmony ecological product compatibility certificate.
OpenHarmony compatibility evaluation is a key link to ensure the interconnection of OpenHarmony ecological products under the support of a unified technology base. The passing of the evaluation of the education and training development board means that Chinasoft International's research and development capabilities and innovation level in the OpenHarmony field have been further improved. Chinasoft International will rely on the ecological practice achievements such as education and training development boards and the talent cultivation system to provide solid support for the OpenHarmony ecology and talent construction, and accelerate the realization of the ecological vision of the intelligent connection of all things.
The teaching and training development board that passed the compatibility evaluation this time uses the Lianshengde IoT Wi-Fi/Bluetooth dual-mode W800 chip as the main control chip, which can be equipped with optional functional modules such as LCD screens, ultrasonic radar, and RGB light strips. In the field of education and training, build various development and training scenarios. For example, in the smart home training scene, the education and training development board can be matched with smart curtains, smart fans, smart light belts, human body sensors and other equipment to realize the linkage and control of home devices; in the sports and health training scene, it can be matched with smart bracelets, Pedometers, temperature sensors and other equipment can monitor exercise data and health status in real time.
Developers can also take advantage of OpenHarmony's tailorable and easy-to-develop features, use various functions on the education and training development board for development and commissioning, form a low-cost, high-performance, multi-product linkage overall solution, and quickly introduce it to the market. The rich functional modules of the education and training development board are suitable for mainstream IoT scenarios such as smart home, sports and health, smart office, industrial control, and medical monitoring.
The education and training development board has the characteristics of multi-scenario distributed experience, flexible expansion, flexible combination, and high cost performance. It can lower the entry threshold for OpenHarmony development, promote the application of OpenHarmony in many IoT fields, and can satisfy education development training in one stop It facilitates end-to-end teaching for teachers in major universities, vocational schools, and education and training institutions, and helps students and developers improve their professional skills.
Chinasoft International has always attached great importance to OpenHarmony talent training and talent supply chain building, and is committed to becoming a "black land" of talent ecology. Chinasoft International and Beijing Institute of Technology jointly established the Institute of Information Technology Innovation, and carried out the special activities of “Focusing on Hongmeng Technology and Cultivating Elite Talents” and the training of specialized talents; relying on the Honglian Entrepreneurship Center, linked with local industry and information bureaus, universities, etc. The unit carried out OpenHarmony technical talent training to help reserve and upgrade local OpenHarmony ecological talent elements and resources; relying on Shenkaihong, reached a strategic cooperation agreement with Shaanxi Innovative Talent Development Research Institute to deeply integrate KaihongOS and other innovative technologies with open source models to cultivate high-level Compound talents.
The teaching and training development board that was awarded the compatibility certificate provides a fast and rich OpenHarmony learning platform that combines theory and practice, allowing more developers to learn OpenHarmony development technology and practice OpenHarmony application scenarios at a close distance. The introduction of fresh blood and the gathering of ecological forces play an important role in boosting.
In the future, Chinasoft International will join hands with Shenzhen OpenHarmony to gather strengths and strengths, and together with many ecological partners, will continue to enrich OpenHarmony's innovative application ecology in the field of education, and build an integrated innovation cultivation of "teaching, learning, production, research, and use" System, give full play to the advantages of the open source model, jointly build the OpenHarmony talent ecosystem, and promote the prosperity and development of the OpenHarmony open source business.
WIMI Stock May Bull In 2023, What’s Going On At WiMi Hologram Cloud?
Source
https://www.newstrail.com/wimi-stock-may-bull-in-2023-whats-going-on-at-wimi-hologram-cloud/
December 30, 2022
With the intensive release of a number of new products, VR / AR (virtual reality / augmented reality) is ushering in a new round of development boom, and China’s local VR / AR industry chain has accelerated its maturity.
VR and AR began to develop in around 2016, but due to the maturity of technological development, the primary immersion stage has a limited appeal and has been tepid for the past few years. Since the outbreak, homework and entertainment have promoted the digitalization of offline scenes, and demand has driven the start of the VR / AR track. And Metaverse’s popularity has added to a fire. VR has already started to face C-end consumers, and related products have also begun to be sold frequently.
What is a VR / AR?
Virtual Reality, abbreviated as VR, also known as virtual reality or spirit environment technology, is a brand new practical technology developed in the 20th century. Virtual reality technology includes a computer, electronic information, and simulation technology, its basic implementation is mainly computer technology, using an integrated 3 d graphics technology, multimedia technology, simulation technology, display technology, servo technology, and other latest development of high-tech, with the help of computers and other equipment to produce a realistic 3 d vision, touch, smell and other sensory experience of the virtual world, so that people in the virtual world have a kind of immersive feeling.
With the continuous development of social productivity and science and technology, the demand for VR technology from all walks of life is increasingly strong. VR technology has also made great progress, and it has gradually become a new field of science and technology.
Augmented Reality, AR, is a kind of virtual information and the real world clever fusion technology, widely used multimedia, 3 d modeling, real-time tracking and registration, intelligent interaction, sensing, computer-generated text, images, 3 d model, music, video, and other virtual information simulation, applied to the real world, the two kinds of information complementary, so as to realize the “enhancement” of the real world.
Metaverse makes VR/AR more popular
In essence, Metaverse is the collection of virtual space, consisting of a series of AR, VR, and Internet, namely through the technical ability in the real world to build a parallel and persistent virtual world, real people in the form of the digital body into the virtual space life, at the same time in the virtual world also has a complete operation of the social and economic system.
In this context, Metaverse contains important investment opportunities and thus becomes a new focus of capital. Climbing the “Metaverse hot” with fire VR / AR industry. In terms of investment and financing, in the past few months, the financing amount of the VR / AR industry has more than tripled from the previous month, with 22 global financing transactions of the VR / AR industry being completed, with the total amount rising to us $1.848.82 million. At the same time, “Metaverse Heat” directly hits the VR / AR content market.
According to the news, after the battle for hardware entry, the head companies also targeted Metaverse’s new match point —— VR / AR content. Compared with hardware and software, content is more suitable for a breakthrough for big manufacturers.
There are three main reasons as follows:
- 1) The overall investment in VR / AR content production is not high, the cost advantage is obvious, and the profit margin is very large. VR / AR content can use the same scripts, parameters, and formats in mobile phones, computers, TV, and other terminal content, with high portability.
- 2) Content is the core selling point of the Metaverse industry. It directly meets the needs of consumers and has a very high added value. It can lay the foundation for the development of the software and hardware that dominate Metaverse.
- 3) Dachang has a certain international competitiveness in the VR / AR hardware dimension, but there is still great room for improvement in the content ecology. To get consumers to pay for VR / AR hardware, we need to constantly enrich the content ecosystem, and “killer” apps and the content will automatically drain VR / AR hardware.
WiMi HologramCloud boosts VR / AR to expand the content market
Data show that the “Metaverse Holographic AR first stock” —WiMi Hologram Cloud (NASDAQ: WIMI) actively carries out the Metaverse layout, in terms of software technology, based on imaging detection and recognition technology, the holographic AR content can be embedded into virtual applications. As a VR / AR manufacturer, it has become a recognized leading enterprise in VR / AR track based on its VR / AR patent layout, years of perceptual interaction, spatial computing, optics, simulation and simulation vertical integration capabilities, and rich experience in V R / A R track.
The positive cycle of VR / AR devices and content has gradually formed, and the platform application types will be steadily diversified in the future. According to the China Institute of Commerce and Industry forecast, the national AR / VR content and service market size will reach 35.01 billion yuan in 2022. WiMi Hologram Cloud has also begun to target the new point of Metaverse matching AR / VR content, toward the hardware + content + ecology development path. It is expected to accelerate the development of the consumer AR / VR market.
At present, with the popularity of the 5G network, the progress of UHD shooting equipment, the popularization of cloud shooting and cloud rendering, and the expansion of the AR / VR consumer market… many conditions mature, for WiMi Hologram Cloud UHD video content to enter the AR / VR ecological construction has cleared the obstacles. Entering the AR / VR content market, WiMi Hologram Cloud has developed 5,000 holographic virtual IP equity content.
In addition, with the introduction of 5G, the evolution of shooting equipment, and the standardization of the production and broadcasting process, the company 5G + VR can complete 4K or even 8K UHD live, and “AR + 8K” content application on the consumer application market, through the content to pull the viscosity of AR / VR products, get more data and user feedback, to improve the technology. Today, the hardware, software, and bandwidth environments have been greatly improved, and the WiMi Hologram Cloud 8K UHD will be widely used in the AR / VR content space.
To Sum Up
It is worth mentioning that after the war of hardware entry, domestic and overseas manufacturers also began to target the MetaverseAR / VR content field. Apple has hired several Hollywood directors to develop video content for its upcoming headset, Meta has teamed up with the Tribeca Film Festival to show 20 short films, and Tencent QQ Music has released VR albums by musicians like Jay Chou, Zhang Huang, and Wang Yuan…
Rich AR / VR content is an important factor in AR / VR hardware consumption. Whoever has more wonderful content is likely to get more hardware users and master the Metaverse entry traffic. Whether Meta, Apple, Google, WiMi Hologram Cloud, Amazon, etc., it is foreseeable that the entire VR / AR industry will return to the public view in 2023 after a dormant period of the past few years. In the Metaverse wind blowing “hot”, the real AR / VR war is coming.
WiMi’s XR-Based Human-Computer Interaction System Brings New Breakthrough.
Source
https://www.newstrail.com/wimis-xr-based-human-computer-interaction-system-brings-new-breakthrough/
December 29, 2022
In the digital era, voice interaction is gradually becoming the mainstream of human-computer interaction. The rapid development of artificial intelligence technology also provides theoretical and technical support for human-computer exchange, and deep learning technology has made significant breakthroughs in speech recognition, natural language processing, and speech synthesis in human-computer interaction. In the future, interactive artificial intelligence technology will also provide new possibilities for zero-barrier emotional communication between humans and machines.
In response to the development demand, WiMi Hologram Cloud, Inc. (NASDAQ:WIMI) conducts in-depth research on edge computing and interactive AI technology, closely combines AI chip and cloud computing with AI technology, and obtains the software copyright of human-computer interaction system based on XR technology.
WiMi’s XR technology-based human-computer interaction system combines artificial intelligence and human-computer interaction, incorporating natural language processing, artificial intelligence, and machine learning technologies that enable machines to understand and respond to any form of instruction in a humane and engaging personalized manner.
The system acquires the user’s main view image, the secondary view image, and the configuration method and fusion mode between the main view image and the secondary view image by capturing the user’s location and observation perspective. Based on the user’s observation perspective and location, the system constructs a multi-view fusion image based on the user’s observation perspective according to the configuration method and fusion mode, which is used to provide the user with different view images. By collecting other commands from the user, the multi-view images are generated according to the user’s position, and the user can switch between the main view image and the additional view image or select the feature points in the image to observe multi-view images, which realizes the technical requirement of multi-view observation of the same object and provides a technical reference for the intelligent processing technology of human-computer interaction for multi-user fusion.
The system’s user interface includes the software and hardware systems that support the interaction between humans and machines and is an integral part of the human-computer interaction system. It involves three components:
- interface design,
- interface development, and
- interface evaluation, which include four essential elements:
- metaphor,
- visibility,
- paradigm, and
- user experience.
- Metaphor compares a digital concept with a familiar concept or phenomenon to explain its interaction pattern.
- Visibility refers to the inherent properties and uses of an object developed over time as people use it, allowing us to understand how to interact with something new when peoplefirst see it. Although both metaphor and visibility themselves contain the meaning of “implication,” visibility is analyzed from the perspective of “things” while analogy is from the perspective of “people.
- Interface paradigms are designed to guide designers in conceptualizing how users use computers and can be used to refer to the paradigm of the user interface. Interface paradigms can be considered as guidelines for interface design, and their purpose is to guide designers in conceptualizing how users use the computer.
- User experience is the collection of users’ overall subjective feelings about a product, including the sum of all the contents that users feel in the process of using the product, and is characterized by dynamism, context dependence, and subjectivity.
In WiMi’s system, users only have to interact with the computer in the most natural way of communication (such as natural language and body movements) and communicate with the computer as if they were communicating with a natural person. The invention lowers the interaction threshold, broadens the user population, and enables the machine to understand human language and emotions humanely, capture early warnings and provide intelligent responses. Through the communication and communication between humans and computers with mutual understanding, it can accomplish the functions of information management, service, and processing for people to the maximum extent and make computers become a technical science of harmonious assistance for people’s work and study.
WiMi Develops Convolutional Neural Network-based Image Enhancement Algorithm.
Source
https://www.newstrail.com/wimi-develops-convolutional-neural-network-based-image-enhancement-algorithm/
December 28, 2022
With the continuous progress of digital image imaging device technology, the number of images acquired through cameras, cell phones, video surveillance, etc., has shown an exponential growth trend, and images have become an essential means for people to perceive the world and exchange information with the outside world. Everything the human eye sees can be translated into the form of images. In the process of image acquisition, generation, compression, storage, and transformation, the complex imaging factors in reality (such as noise, low light, camera shake, object motion, etc.) will lead to degradation of image quality (such as noise, blur, distortion, etc.) and reduce the visual perception quality of images. In this context, the recovery and image enhancement of low-quality images have become a hot research topic in academia and enterprises.
Image enhancement is achieved mainly through contrast stretching, preservation, and high restoration of image details.
- Firstly, for the whole image, the contrast between the image part and the whole should be improved, and the parties should not be neglected;
- secondly, the signal-to-noise ratio of the image should be improved to suppress the generation of noise and improve the quality of the photo to make it conform to the visual characteristics of human eyes.
At present, image enhancement is one of the popular directions in the field of digital image processing, and the image enhancement algorithm is mainly a series of processing of the image captured by the imaging device to enhance the overall effect of the image or local details, and various image enhancement algorithms are emerging.
It is understood that the R&D team of WiMi Hologram Cloud, Inc. (NASDAQ:WIMI) is studying image enhancement algorithms based on convolutional neural networks. Convolutional neural networks have outstanding achievements in many fields, such as computer vision and natural language processing. Applying convolutional neural networks to image enhancement has obvious advantages and can solve the challenges of image enhancement in different environments.
The essence of the convolutional neural network is to map the input image to a new mathematical model by multiple data transformations or dimensionality reduction. Convolutional neural networks mainly consist of:
- an input layer,
- a convolutional layer,
- a pooling layer,
- a fully connected layer, and
- an output layer.
- The convolution layer performs the convolution operation on the input image or the output features of the previous layer, calculates the inner product of the whole convolution kernel and the corresponding position of the input image or feature map, and extracts the relevant image feature map.
- The role of the pooling layer includes dimensionality reduction of the activation feature map, reducing the number of parameters and computation in the network, maintaining the feature scale invariance property, and reducing overfitting to a certain extent. The pooling layer can downsample the image using the basis related to the image part to reduce the amount of computational data and leave valid information values.
After multiple convolutional pooling operations on the image, the convolutional neural network classifies the features through the fully-connected layer by using the one-dimensional activation feature vector obtained after expanding the three-dimensional activation feature map as the input to the fully-connected layer.
WiMi’s convolutional neural network-based image enhancement algorithm has substantial advantages in extracting image feature information and feature representation. The convolutional neural network can share weights and perform convolutional computation, has strong feature learning capability and mapping capability, ensures the suppression of noise and image detail protection, and has high invariance in image displacement, scaling, and other deformation. It also suppresses noise and image detail protection and has high invariance during image shifts, climbing, and other deformations, showing better-reconstructed image quality.
Convolutional neural networks can learn complex hierarchical features of images and perform complex image recognition tasks. At the same time, the feature extraction based on the convolutional neural network can understand the deep semantic feature information of the image, which can well capture the contextual content of the image, repeatedly train and learn the input image, and finally obtain the best image enhancement effect to meet the requirements of a human vision system for the idea.
Image enhancement algorithms based on convolutional neural networks have broad applications in security, medicine, ecological environment, and other fields. With the rapid development of global information technology, the understanding of the world is increasingly dependent on the explosive transmission of information. The primary way for most people to know the world is still the visibility of the eyes; therefore, image is not only a carrier of human visual information but also an essential medium for spreading information. People’s requirements for image quality are increasing to obtain adequate information in images quickly, the demand for image enhancement will also grow, and the application field of image enhancement technology will be further expanded.
In the future, WiMi’s convolutional neural network-based image enhancement algorithm technology will strive for better progress and more significant breakthroughs in visual effects, contrast ratio, signal-to-noise ratio, etc., laying a solid technical foundation for its more important role in more industries.
WiMi Develops a Holographic Digital Cloud Platform Based on 3-D Cloud Technology.
Source
https://www.newstrail.com/wimi-develops-a-holographic-digital-cloud-platform-based-on-3-d-cloud-technology/
December 27, 2022
The three-dimensional point cloud is a massive collection of points expressing the target spatial distribution and the spectroscopy of the target surface under the same spatial reference frame. It is a geometric description of the model composed of a series of spatial sampling points on the surface of the object model, and it is also a general manifestation of three-dimensional laser scanning data.3-D point cloud data contains rich attribute information such as spatial coordinates and colors. Compared with the traditional conventional measurement technology, the measurement technology based on the 3-dimensional point cloud (3D Point Cloud) has fast speed, strong penetration, non-contact, fully digital, high precision, and high density.
WiMi Hologram Cloud(NASDAQ: WIMI) is building a holographic digital twin cloud platform based on three-dimensional point cloud technology to reconstruct the people, objects, and fields of the physical world in the Metaverse. Compared with traditional three-dimensional models, three-dimensional point cloud technology is not constrained by manual modeling of the surface equations and surface continuity and can restore any complex solid geometry with high precision and convenience, presenting finer details and sharper edges.
Compared to two-dimensional images, three-dimensional point cloud data has one-dimensional (depth) information, and the background. Based on the more multi-dimensional rich data provided by point cloud, the integration of intelligent technology for mining and understanding can help technicians to more keenly capture the real and subtle changes of people, objects, and scenes, extract key data, learn the internal knowledge logically, and realize the perception and understanding of complex scenes. Based on 3-D point cloud reconstruction, a highly realistic 3-D model can be quickly constructed directly through the discrete points on the surface of the object or space scene, which greatly reduces the creation threshold of 3-D content and improves the accuracy and speed of modeling.
3-D point cloud technology usually encounters problems such as point cloud sparsity, disorder, and geometric transformation, and the deep learning of 3-D point cloud also faces major challenges such as small data set size, high dimensionality, and unstructured 3-D point cloud. The R & D team of WiMi Hologram Cloud has also done a lot of research work in this regard, including the 3 D shape classification of 3 D point cloud processing, 3 D object detection and tracking, 3 D point cloud segmentation, 3 D point cloud registration, degree of freedom pose estimation and 3 D reconstruction and so on.
3-D point clouds retain the original geometric information in 3-D space and do not discretize. Therefore, it is the preferred representation for many scenarios (such as autonomous driving and robotics). The 3 d point cloud technology has advantages that conventional measurement technology does not have. From space to the surface of the earth, from global mapping to urban planning, from scientific research to public services, from object modeling to building structure reconstruction, three-dimensional point cloud technology has shone in many significant projects and important fields. With the added three-dimensional point cloud technology, the holographic digital twin cloud platform from WiMi Hologram Cloud (NASDAQ: WIMI) will be able to provide services for users in more fields.
In the future, with the rapid development of hardware and software technologies such as space sensors, the accuracy, and convenience of point cloud data will be continuously improved, and the efficiency of copying the real world will also be greatly improved. This will also lead to more practical innovative applications and cases. With the support of the Internet of Things, digital twin, AI, and other technologies, 3 D point cloud will be the key underlying technology created by Metaverse, which will gradually promote the evolution of the Internet form to the virtual space parallel to the real world, and finally create a new era.
WiMi developed the face detection and database comparison recognition system.
Source
https://www.newstrail.com/wimi-developed-the-face-detection-and-database-comparison-recognition-system/
December 23, 2022
With the development of artificial intelligence technology, face recognition technology has been more and more widely used in various fields. The advantage of face recognition is that each person’s face information can be accurately retrieved and recognized, and the purpose of crime prevention and personal identity confirmation can be achieved through the comparison of identity information. In the security industry, holographic face recognition system can be used not only for monitoring and prevention measures and anti-theft alarm systems in densely populated places such as airports, stations, hospitals, but also for fraud prevention and security monitoring in the commercial field. According to the data of Markets and Markets, the global face recognition market will be 3.8 billion dollars in 2020, expected to grow to 4.5 billion dollars in 2021, 8.5 billion dollars in 2025, and CAGR is about 17%.
Now, more and more face recognition functions have been added to holographic VR/AR applications. For this reason, WiMi Hologram Cloud (NASDAQ:WIMI) has developed a holographic intelligent face detection and database comparison recognition system. WIMI realizes human identification and identity authentication through the distribution of facial feature points in the image by with intelligent face detection.
- Image processing technology is used to extract and analyze the features related to personal characteristics, and convert them into digital forms.
- The computer is used for identification processing to complete the process of identity authentication or personal verification.
- The camera is used to collect facial information, and feature extraction and comparison are performed after preprocessing, transcoding, 3D registration and reconstruction, face detection, region segmentation, and face tracking by filtering, RGB/RGB technology.
In order to provide the accuracy of detection information and recognition efficiency, WIMI R&D team independently developed face detection algorithm, which realized real-time detection of facial features, and used real-time dynamic data enhancement technology to reduce false detection. This method improves the speed and accuracy of face recognition. WIMI holographic intelligent face detection and comparison system can be applied to a variety of complex scenes. According to its characteristics in complex environments, we have developed face quality assessment, pose assessment, backlight detection and other technologies, and put forward a new method based on face priority. In terms of facial attributes, WIMI’s holographic intelligent face detection and comparison system adopts the method of association of multiple attributes.
The attributes with high correlation are used for sharing network characteristics, while the mutual exclusion is used for feature decoupling. Through repeated iteration, the algorithm can predict a single model and multiple facial features online and in real time. The holographic intelligent face detection and comparison system adopts a non matching dynamic scene recognition algorithm based on depth learning. This algorithm realizes accurate recognition by simplifying the network, and combines WIMI’s self-developed facial posture and face correction technology to filter and reconstruct the side and part of the face that are not obvious in complex scenes, so as to solve the problem of face occlusion.
With the continuous development of artificial intelligence and big data, face information has increasingly become an important part of personal information. The holographic intelligent face detection and comparison system ensures the information security of users through data desensitization, private computing and decentralized storage. Under the condition of obtaining the full authorization of the user, the facial features of the user are identified, and the label technology is used to identify them, and the non reversible password technology is used to encrypt them, thus ensuring the security of data transmission and storage, and effectively protecting the facial features of the user.
By using the trusted Execution Environment (TEE), Secure Multiparty Computing (MPC) and other privacy computing technologies, without collecting and sharing the original data, we have realized the security processing of the facial features, and only conducted desensitized Computing on the outside, ensuring that there will be no leakage in the use, processing and circulation, It effectively solves the contradiction between data confidentiality and efficient processing and circulation. The method of security isolation and decentralized storage is adopted to realize differential privacy, ensure that attackers can not infer other information from some data, and reduce the privacy leakage caused by centralized storage of sensitive information.
The development of WIMI’s holographic face recognition technology will be widely used in public security, social management and other aspects. WiMi Hologram Cloud (NASDAQ:WIMI) will also provide large-scale face recognition comparison service solutions on its holographic cloud platform to make intelligent life safer and better.
Web3.0 Holographic Space Internet Changes The World.
Source
https://www.newstrail.com/wimi-hologram-cloud%EF%BC%9Aweb3-0-holographic-space-internet-changes-the-world/
December 23, 2022
The era of Web 3.0 has opened. Although we cannot judge when it will mature, it is changing every aspect of our lives little by little. The boundary between the virtual digital world and the real physical world will become more and more blurred in the future. This trend has been emerging, just as the early functions of Internet technology gave birth to Web 1.0 and Web 2.0. Now some new and high-tech technologies, such as XR (Extended Reality) technology, Internet of Things (IoT) technology, geographic positioning and sensors, blockchain and artificial intelligence machine learning (AI/ML) and advanced network (5G/6G), are promoting the evolution of holographic space Internet.
WiMi Hologram Cloud, Inc.(NASDAQ: WIMI) has carried out technical layout in these technical fields, including hardware and a large number of software technologies. The integration of these high and new technologies will be the characteristics of holographic space Internet technology, and also the technical basis of Web3.0. Of course, technological innovation always includes three basic levels of IT architecture interaction, algorithm and information, which are also the basic elements of Internet technology development iteration.
Interactive, AR/VR devices may change the use mode of people’s access to the Internet, and will become the entrance for people to access the holographic space Internet in the future. Its form may change from AR glasses and handles to digital contact lenses and wearable tactile devices, which requires the development of hardware equipment to make the AR interface more economical and comfortable and can be worn for a long time.
Algorithm is the basic support of computer Internet technology. It enables computers to understand the non digital world. Holographic space networks also have higher requirements for algorithms. AI/ML technology plays an important role in technology iteration. AI/ML plays a key role in the realization of Web3.0 holographic space Internet through self programming and continuous learning of AI, which can perform personalized situational experience and requires efficient data processing capabilities. Now, through edge computing distributed cloud deployment, the delay is reduced by shortening the distance between cloud processors and connected devices. Advanced networks such as 5G/6G also greatly improve the efficiency of data transmission and delay. With the deployment of more efficient algorithm examples, it will be possible to build various technologies from machine vision to 3D digital holography, and build Web3.0 holographic space Internet holographic cloud technology.
Information, with the continuous enrichment of various devices and user data, our data sources and types are also increasing. User privacy, ownership confirmation, etc., including our social activities, financial activities, entertainment and work, are deepening the connection with the Internet. Then the security of information will be more important than ever. Decentralized distributed ledgers will ensure the integrity and security of data information. We hope to realize an open ecosystem on information. Users do not want to be limited by the platform. This is a decentralized data information system that everyone hopes. Web3.0 holographic space Internet will realize a real open ecosystem based on blockchain technology.
Interaction, algorithm and information are the basic elements of our computer Internet. We can see that the patents and investment of Internet applications based on Web3.0 holographic space have increased significantly in recent years. WiMi Hologram Cloud has been based on the development of holographic space Internet technology. At present, it has obtained more than 600 software patents, including 410 software patents related to holographic space Internet technology, These technologies are not necessarily exclusive technologies of Web3.0 holographic space Internet, but each innovation contributes to the final realization of Web3.0 holographic space Internet.
WiMi Hologram Cloud(NASDAQ:WIMI) has also participated in the strategic investment and layout in this field while developing the basic technology of holographic space Internet, which has driven the development of industrial technology application enterprises. For example, Simai Cloud Technology invested by WiMi Hologram Cloud focuses on XR professional online courses, which have been applied to the fields of electric power, automobile and financial industries. The immersive and interactive learning method strengthens the students’ concentration and improves the transformation and absorption of learning content. The AR UAV teaching just launched by Simayun has greatly improved the learning environment of students. Virtual UAVs projected through AR glasses in real space can have more practical experience and practice time than before. Before students graduate, they can have more mature control technology than before. This system has been signed by several UAV training schools. Only two months after the system was launched, more than 1000 students have been trained and graduated.
In addition, cloud sail virtual reality technology invested by WiMi Hologram Cloud, which focuses on digital twin technology, is committed to providing high-quality digital visualization, industrial intelligence and three-dimensional space Internet operation platform for enterprises, manufacturers, self-employed people, etc. through AR/VR technology. The project applications range from real estate, industrial parks and smart cities to the recently launched PaaS3D application (Visual Customize Product 3D/AR), which has been launched on Shopify.
At present, it is the top three application of 3D/AR/holographic visual customization products in the global overall usage. At present, more than 100 enterprises have cooperated with it to build their own space Internet sales platform, and three-dimensional holographic physical products into digital space through PaaS3D application. For example, the furniture industry virtually digitizes the physical furniture on the Internet. Users can project the virtual furniture to the real space through AR glasses, or mobile phone/tablet computer cameras to pre judge the effect after purchase, and can also choose different colors and materials. This greatly improves user satisfaction, reduces the return rate, and makes the enterprise’s online mall run more efficiently.
There is also Avatar Rehabilitation Technology led by Dr. WiMi Hologram Cloud, whose rehabilitation mall is an intelligent rehabilitation platform integrating assessment and intervention based on AI algorithm+XR (VR/MR/AR technology for human-computer interaction)+loT Internet of Things technology. The rehabilitation platform has started clinical treatment trials in some hospitals and rehabilitation centers such as Southern Medical University. At present, the company has two research and development centers and a clinical laboratory.
WIMI Hologram Cloud, Inc. (NASDAQ: WiMi) We are very clear that Web3.0 is now beginning, but it has not really arrived. With the development of technology and the interaction of IT architecture, the technology iteration of three basic levels of algorithm and information, the applications of various industries are gradually integrated into the holographic space Internet, creating a more realistic and efficient Internet collaboration system.
Next-Gen Communications Devices Endorsed by AT&T, Verizon,
and Bell – Resuming Coverage Fair Value: US$0.75
Source
https://www.researchfrc.com/wp-content/uploads/2022/12/Siyata-Mobile-Dec-2022-Resuming-Coverage.pdf
December 21, 2022
Please read the FULL REPORT ( 13 Sites) at:
https://www.researchfrc.com/wp-content/uploads/2022/12/Siyata-Mobile-Dec-2022-Resuming-Coverage.pdf
Siyata Mobile Stock In Play After Two Major Deals And A 588% Surge In Q3 Revenues ($SYTA).
Source
https://www.marketscreener.com/quote/stock/SIYATA-MOBILE-INC-114201726/news/Siyata-Mobile-Stock-In-Play-After-Two-Major-Deals-And-A-588-Surge-In-Q3-Revenues-SYTA-42596277/
December 21, 2022
It pays to be different in crowded sectors, and Siyata Mobile (NASDAQ: SYTA) is proving that point. In fact, SYTA's standout characteristics have been instrumental in the pursuit of its mission to secure a global market leadership position in the fast-growing Push-to-Talk Over Cellular (PoC) sector. Thus, don't be misled by the company's micro-cap share price; SYTA is performing in the major leagues of the industry and is disrupting traditional Land Mobile Radio (LMR) markets with next-generation cellular technology.
SYTA already has its sights set on a $20 billion revenue generating opportunity - and that's just the 2022 valuation. Estimates into 2025 put the combined addressable market opportunity north of $50 billion in the North American markets alone. In other words, SYTA is in the right markets at the right time and, just as importantly, has the right products to target several of the most potentially lucrative categories in the PoC industry. By leveraging its role as a leading developer and distributor of technologically advanced rugged smartphones, SYTA can meet growing sector demand for products such as in-vehicle mounted IoT cellular communications devices and cellular signal boosters for global first responders and enterprise customers.
Having those products is a key distinction that will allow SYTA to quickly penetrate markets. In fact, they are already doing so - even biting into share once held almost exclusively by the industry's LMR behemoths like Motorola Solutions Inc. (NYSE: MSI), L3Harris Technologies Inc. (NYSE: LHX), and overseas brands such as JVCKenwood Corp. (TSE: 6632) and Hytera Communications Corp (SZSE: 002583). Perhaps the best part of the SYTA value proposition is that its impressive growth trajectory shows no signs of slowing.
Right Sectors, Right Products At Right Time
To the contrary, SYTA's growth is accelerating because the company is aggressively capitalizing upon PoC market opportunities with disruptive solutions, targeting three complementary product categories whose synergies include using the same core channels and servicing the same customers. The better news is that no other known competitor offers a similarly comprehensive portfolio of products, a distinction that could enable SYTA to replace ambition with real-time growth from an expanding client list that includes global and national carriers that appreciate the breadth of its single vendor asset portfolio. That difference is advantageous by providing synergistic sales benefits and simplifying integration processes.
That's not the only benefit:
so are those inherent to SYTA products, including its rugged SD7 push-to-talk handsets. This next-generation PoC device is already considered a game-changing field asset and an excellent upgrade from land mobile radio because of its simple, purpose-built, highly functional, and rugged Android-based design. That's not the only feature attracting client interest; it's also earning praise for its rugged IP68-rated design that protects against dust and debris, making it the only known push-to-talk device meeting the needs of especially rigorous field use applications. More important than that, it provides excellent noise-reducing sound quality that allows for clear communication, a benefit typically not inherent to the current generation of rugged smart and feature phones. There's still more to like.
SYTA is doing more than targeting field PoC applications; opportunities from In-Vehicle PoC solutions are in the revenue-generating crosshairs as well. Indeed, SYTA's complementary and innovative VK7 is a first-in-class, in-car solution that pairs with its SD7. Like the company's SD7, the VK7's strength is in its unique design, which includes connections to vehicle power, an integrated 10W speaker, a simple Slide-In connection, and internal active cooling. Additionally, the kit has a modularity that allows for the integration of multiple accessory solutions. Another product in the in-vehicle family is the UV350, an in-vehicle smartphone specifically designed to optimize mobile communications while driving. The UV350 is already considered a preferred IoT device for commercial vehicles because its 4G/LTE speed is always powered and supports FirstNet® certified apps, including fleet management, dispatch, GPS mapping, and other custom solutions.
A third category intending to drive revenues higher is its Channel Relationships, a focus allowing SYTA to market devices with global cellular carriers and distributors who sell to their enterprise customers. Leveraging these carrier sales channels and their broad customer base with SYTA's three complementary product categories benefits a lean operating cost structure. Furthermore, Siyata brings a unique advantage in providing client carriers the ability to activate a SIM card and generate income otherwise not captured with customers using traditional LMR.
Timely To The Opportunity
Of course, excellent products are only as valuable as the markets they serve. As noted, SYTA targets several massive market opportunities and is currently earning business by overcoming the limitations of traditional LMR services, which can include limited coverage, restricted voice and low-capacity functionality, and high start-up and tower maintenance costs.
Those inefficiencies, while bad news for the brands that sell them, are excellent accelerants supporting SYTA's growth. And by being a first-to-market provider to replace decades-old technology with a 21st-century solution, SYTA is prepared to maximize that opportunity. The more excellent news is that walkie-talkie-like technology with an unlimited coverage range is about to be offered to the masses. For SYTA, it puts billions of market dollars into play - and they may be easier to capture than many think.
That could result from SYTA technology operating over 4G LTE networks, enabling consistent domestic and international connectivity to facilitate messaging, one-to-one, or one-to-many instant call communications. Moreover, running on the high bandwidth 4G LTE network also supports data-intensive services such as pictures, video, and a host of other third-party applications. Perhaps the best news for everyone, including SYTA investors, is that with no need to invest in infrastructures such as radio towers or repeaters, the client list at SYTA can grow not only appreciably but quickly. That could translate to more business for Siyata, and thanks to a lean operating structure, revenues should fall faster toward the bottom line. By the way, there could be plenty more to count.
Deals Made, Revenues Surge
Last month, SYTA announced inking a deal with Bell Mobility Inc. to launch its rugged SD7 device onto their network in the fourth quarter of 2022. The opportunity is tremendous, tapping into the potential inherent to Bell Mobility's leading wireless operator position and more than 10 million subscribers. As a division of Bell Canada, that deal could be the first of several, each bringing significant new revenue opportunities. That's not the only near-term value driver.
In December, SYTA announced adding RadioTrader, the UK and Ireland's premier two-way radio supplier, to distribute the ruggedized, mission-critical SD7 PoC device and VK7 vehicle kit accessory. That deal is expected to attract business from a wide variety of industries that rely on RadioTrader and its over 20 years of industry experience for two-way radio solutions. Moreover, the addition of SYTA's SD7 device and VK7 vehicle kit validates the quality of SYTA products and, more importantly, could provide fuel to score considerable near-term sales. If so, they add to impressive growth.
For its quarter ending September 30, 2022, SYTA reported strong year-over-year and sequential top-line growth. In addition, operating losses are declining, a tribute to its streamlined business model allowing for market growth without bottom-line destruction. Most notably, the company's improved financial performance was driven primarily by several customer trials of its SD7 rugged push-to-talk device, which began shipping in the second quarter.
Those trials are paying off, evidenced by conversion from tests to purchase orders leading to a 588% increase in year-over-year revenue to $1.9 million in Q3. While accessories contributed, the excellent news is that revenue increases were driven primarily by volume growth for its SD7.
Pushing Toward A Record-Setting 2023
All told, SYTA is firing on all business cylinders. And, as a leading global vendor of next-generation Push-To-Talk over Cellular devices and cellular booster systems, its trend of excellent operating performance is likely to continue.
Frankly, while its 588% comparative Q3 revenues were impressive, the recent deals alluded to could make that surge the precursor to even higher gains, especially from dealing with some of the world's largest carriers and distributors. As noted, SYTA appears to be gaining business traction where others aren't, which puts hundreds of millions, if not billions, in revenues into its income crosshairs from laying the groundwork that should keep the competitive landscape thin.
Bottom line:
best-in-class products, deals with top-tier clients, and surging revenues expose a value disconnect between SYTA shares and its work done. But it's not only what they've already accomplished supporting that idea; it's what they are doing now that really drives the point home. That perspective makes SYTA stock an attractive and compelling value proposition. But, like most Wall Street disconnects, once found, they close quickly. In other words, with SYTA looking better positioned than ever for growth, taking advantage of the value proposition may be better done sooner than later.
WiMi Develops AI-Based Chip Automated Filling System to Boost Production.
Source
https://www.newstrail.com/wimi-develops-ai-based-chip-automated-filling-system-to-boost-production/
December 20, 2022
Chip design is the key and the most challenging part of chip production.
The process includes:
- selecting the appropriate materials and structures,
- determining the proper design methods and flow, and
- designing systems with specific functional and performance requirements.
In the process of physical chip design, after completing timing and functional convergence, it enters the DFM stage, when the layout, whether it is the density of the metal or the width of the graph, is not uniform; since the flatness of the wafer surface cannot be guaranteed, the redundant filling must be used to improve the flatness of the chip. A redundant fill is a layout structure that does not affect the logic function of the chip. A redundant filling helps to improve the consistency of interconnect pattern density and is a crucial method to optimize the CMP process.
WiMi Hologram Cloud, Inc. (NASDAQ:WIMI) developed an artificial intelligence-based chip design redundancy automated fill system. Chip design redundancy filling usually uses rule-based and pane-based redundancy filling methods.
The rule-based redundant metal filling algorithm performs a redundant metal filling using two or more steps. Better image gradients are achieved by filling redundant shapes with larger sizes and buffer distances and serving smaller ones. The use of multi-step filling and the introduction of redundant graphics with smaller sizes and buffer distances lead to further improvements in the overall image density.
The redundant metal filling method based on the window format results in better graphic density and graphic gradients. The technique uses a specific algorithm to fill the redundant metals according to the surroundings of the design layout. First, the whole chip is divided into individual panes (e.g., 50 µm), then the graphic density in each pane is calculated, and finally, the amount of redundant metal filling is decided based on the expressive thickness of adjacent panes. The goal of the repetitious metal filling is to minimize the graphic gradient while the window format fills through a circular algorithm to make the minimum amount of filled redundant metal, while the density gradient difference between each adjacent pane is also minimized.
Both filling methods are under-constrained. The former filling method does not consider the graphic gradient, which is an important reason for the generation of hot spots in CMP and etching processes, and the latter leads to the existence of redundant inconsistency in the metal filling, which affects the uniformity of etching and CMP processes.
WiMi’s R&D team uses artificial intelligence technology for chip redundancy automatic filling system on this basis, which selects and calculates filling density and gradient through artificial intelligence algorithm technology. The artificial intelligence chip design redundant automated filling system obtains the redundant graphic filling template map with a high yield rate, corresponding to the chip layout that needs to be filled as the training image, and obtains the filling position label and gradient of the redundant graphic through artificial intelligence model calculation; chip design redundant filling allows the chip production process to maintain the consistency of interconnection graphic density, which significantly improves the production yield of chips.
In particular, the production yield of large-capacity memory is generally low, making the chip yield rate lower. By using chip design redundancy filling, it makes it possible to place multiple memories inside the chip, and even if one or more of them have problems and fail the test, as long as the remaining correct memories in the chip meet certain conditions, through calibration and specific configuration, the whole chip will not be affected, which can improve the chip. The production yield of the chip can be improved.
WiMi Develops Convolutional Neural Network-Based Image Fusion Algorithm System.
Source
https://www.newstrail.com/wimi-develops-convolutional-neural-network-based-image-fusion-algorithm-system/
December 19, 2022
In recent years, image fusion has become a research hotspot in image understanding, computer vision, and remote sensing. It is widely used in medicine, intelligent robotics, industry, and other areas, and the study of image fusion algorithms has important theoretical significance and practical value. Meanwhile, with the continuous improvement of the computer level, the theory of convolutional neural networks is also developing rapidly, and it has been widely used in many fields, such as target recognition and face recognition. The application of convolutional neural networks to image fusion has obvious superiority, which can improve the feature extraction and assignment in image fusion and enhance the quality of fused images.
It is understood that WiMi Hologram Cloud, Inc. (NASDAQ:WIMI) has developed a convolutional neural network-based image fusion algorithm system. Image fusion is to process and fuse two or more images acquired by different sensors to achieve complementary information between images, maximize image quality, generate content-rich merged images that better match visual perception, and then complete the analysis and processing of information. The convolutional neural network is a typical deep learning model that learns feature representation mechanisms at different levels of abstraction for signal or image data. CNN extracts features of the input image by learning filters to obtain other feature maps at each level, and each unit or coefficient in the feature map is called a neuron. Different computational methods, convolution, activation function, and pooling, are generally utilized to connect the feature maps between adjacent levels.
The key to WiMi’s convolutional neural network-based image fusion algorithm is to effectively extract image information and use an appropriate fusion strategy to maximize the useful information from the source image and fuse it into the resultant image to obtain a high-quality image.
Firstly, the images to be fused are acquired and preprocessed. The preprocessed images are input to the convolutional neural network separately for training to extract their image fusion features. Then the optimal thresholding method is used to segment the fusion features and fuse different regions of different images accordingly to obtain the final image fusion results.
A convolutional neural network is a multilayer structure, including an input layer, pooling layer, fully connected layer, convolutional layer, etc. The convolutional layer is the most critical part, which contains several neural network nodes that can extract the features for image fusion. The pooling layer can downscale the image fusion features, obtain the new image fusion feature mapping set, and then iterate continuously through the weights for training and learning. To perform the optimal fusion of images, the images must be segmented into different regions. The images to be fused are divided into other areas by the optimal segmentation threshold, and the various parts are merged to output the image fusion results.
The image fusion algorithm system based on the convolutional neural network of WiMi not only improves the clarity and brightness significantly but also improves the image signal-to-noise ratio and the image quality, which can obtain better image visual effect and has obvious superiority compared with the traditional image fusion technology.
WiMi’s convolutional neural network-based image fusion algorithm has become a critical image analysis and computer vision technology; with the continuous improvement of hardware and related research, its application in various fields will continue to develop further. WiMi has a wide range of applications in a target recognition, intelligent robotics, medical image processing, industrial Internet, etc.