Register for free to join our community of investors and share your ideas. You will also get access to streaming quotes, interactive charts, trades, portfolio, live options flow and more tools.
Register for free to join our community of investors and share your ideas. You will also get access to streaming quotes, interactive charts, trades, portfolio, live options flow and more tools.
Siyata Mobile Announces Upcoming Earnings Release and Conference Call Schedule.
Source
https://finance.yahoo.com/news/siyata-mobile-announces-upcoming-earnings-123000823.html
May 11, 2023
- Q4 and Full Year 2022 results to be reported after the close on May 15
- Q1 2023 results to be reported after the close on May 24
- Plans to host conference call at 8 a.m. ET on May 25
Siyata Mobile Inc. (Nasdaq:SYTA/SYTAW), a global vendor of Push-to-Talk over Cellular ("PoC") devices and cellular signal booster systems, announced that it will host a conference call at 8 a.m. ET on Thursday, May 25 to discuss its fourth quarter and full year 2022 and its first quarter 2023 financial results. Following management's formal remarks there will be a question-and-answer session.
Date: Thursday, May 25, 2023
Time: 8 a.m. Eastern Time/5 a.m. Pacific Time
Conference ID number: 96645139
North America dial-in number: +1 (416) 764-8658
International toll-free dial-in number: +1 (888) 886-7786
There will also be a playback of the conference call, available in MP3 format by contacting investor relations.
CloudMD and XTM Bring EAP and Telemedicine to the Service Industry.
Source
https://finance.yahoo.com/news/cloudmd-xtm-bring-eap-telemedicine-110000397.html?guccounter=1
May 11, 2023
CloudMD Software & Services Inc. (TSXV: DOC, OTCQX: DOCRF, Frankfurt: 6PH), an innovative health services company transforming the delivery of care, and XTM Inc. (“XTM”) (QB: XTMIF / CSE:PAID / FSE:7XT), a Fintech creator of disruptive payment innovations and staff management solutions to inspire today's workers in the hospitality, personal care and service space, today announced an innovative partnership to bring Employee Assistance Program (“EAP”) and telemedicine to the historically underserved hospitality and service industry.
“Inspired workers are a win for employers,” said Marilyn Schaffer, CEO, of XTM. “Healthcare creates a lot of noise and distraction for service workers who may have difficulty in accessing a family doctor due to scheduling and the shortage of local professional medical experts. Through our partnership with CloudMD, we dignify the service workforce by offering on-call virtual healthcare as well as short-term mental health support. This service will be offered either through employers or by Members’ direct opt-in.”
“Our partnership with XTM will enable us to empower their members to lead healthier lives,” said Adam Kelly, EVP & Chief Commercial Officer of CloudMD. “We know the traditional healthcare system is strained, and through our EAP and telemedicine programs, we can offer faster time to care for both personal and medical challenges. Service industry workers face difficulty in accessing care due to their changing and irregular work shifts. There’s no need for them to spend weeks waiting for a General Practitioner appointment.”
The new partnership will allow large chains, individual locations, or individual workers to opt-in at an attractive per-member, per-month cost, enhancing the value of being an XTM member and improving health, wellness, and productivity of participating organizations.
About XTM
XTM.
https://www.xtminc.com/
is a Miami and Toronto-based fintech innovator founded in the cloud-banking space and further helping businesses inspire their workforce in the hospitality, personal care and services staffing industries. Established as a leader in on-demand pay with many large brands including Earls, Maple Leaf Sports & Entertainment, Cactus Club, Marriott Hotels and Live Nation, XTM continues to innovate with further digital featurization to support businesses to inspire workers to want to work more with shift scheduling and call-outs, staff management, expense management, in-app health and financial wellness; and gamified loyalty programs. XTM's Today Financial™ is in use through POS and Payroll integrations and directly through web portals by thousands of businesses and their workers across Canada and the United States.
WIMI Expands the Imagination Space of AIGC+ Digital Humans.
Source
https://t.cj.sina.com.cn/articles/view/1765776051/693f9ab30200119pb?from=tech
May 11, 2023
It is understood that with the continuous iteration and development of digital human technology, more and more companies have gradually realized that if a technology is to be widely applied to all walks of life, lowering the threshold and inclusiveness are the only way to go. Based on this, WIMI, as the world's leading AI solution provider, has developed a data-driven virtual digital human construction technology for the public.
According to public information, this technology quickly collects and processes the action data of real people to generate action data sets, and uses machine learning algorithms for model training and optimization to generate high-fidelity virtual digital human models, thus providing low-cost Efficient solution.
It is reported that the key to the data-driven virtual digital human construction technology researched by WIMI is to collect data to obtain information such as real human body characteristics, shapes and actions. Data acquisition equipment includes 3D scanners, cameras, motion capture systems, etc., which can collect real human bodies from multiple angles and record information such as their shapes and movements. In addition, its digital human has an intelligent question-and-answer function, which can interact and communicate with the audience in real time, improve the flexibility, functionality and authenticity of the digital human, and enhance the audience's sense of experience.
Relying on this, the WIMI Holographic team has developed a product application that uses AI technology to quickly generate a digital human image. As the link point technology between artificial intelligence and the metaverse, the WIMI Holographic Digital Human has been widely used in various applications. Scenes. Such as intelligent digital customer service, digital human live broadcast, cultural tourism digital human, digital human marketing, etc., and can create new impetus and new economic growth points. WIMI will continue to create and optimize digital human technology and related services, and provide high-quality and efficient digital human service solutions for the generative AI technology development industry, animation film and television industry, pan-entertainment live broadcast industry, and e-commerce industry.
epilogue
In recent years, with the continuous development and maturity of digital human technology and AI technology, digital human has been more and more widely used to provide users with intelligent services. In particular, the IDC report pointed out that AI digital humans are gradually upgraded under the promotion of AIGC. AI digital humans can already be used in entertainment-oriented scenarios such as delivery of goods and live broadcasts, as well as in education, medical care and other professional fields. In the future, generative AI will gradually infiltrate from the C-side to the B-side. With the blessing of AIGC, digital humans will usher in new breakthrough windows in terms of manufacturing efficiency, usage scenarios, multi-modal interaction, and analysis and decision-making. Then you might as well look forward to it.
Explanation: Digitale Transformation
The digital transformation (also "digital change") describes an ongoing, far-reaching process of change in the economy and society, which has been triggered by the emergence of increasingly powerful digital techniques and technologies. In the narrower sense, the change process within a company triggered by digital technologies or customer expectations based on them is often referred to as digital transformation.
Digital transformation is based on a digital infrastructure and digital technologies – traditionally referred to as information technology – which are characterized by a certain willingness to innovate and thus pave the way for new digital technologies. The main drivers of digital transformation include digital infrastructures (e.g. networks, computer hardware) and applications (e.g. apps on smartphones, web applications) as well as the exploitation potential based on digital technologies, e.g. digital business models. The expectations of individuals - especially of many younger innovative members of society, among other things towards companies - are themselves a strong driving force of digital transformation.
What is digital transformation?
https://enterprisersproject.com/what-is-digital-transformation#:~:text=Digital%20transformation%20is%20the%20integration,and%20get%20comfortable%20with%20failure.
Smart cities: Digital solutions for a more livable future
https://www.mckinsey.com/capabilities/operations/our-insights/smart-cities-digital-solutions-for-a-more-livable-future
Unlocking the future: The keys to making cities great
https://www.mckinsey.com/capabilities/operations/our-insights/unlocking-the-future-the-keys-to-making-cities-great
DIGITAL SOLUTIONS FOR A MORE LIVABLE FUTURE
https://www.mckinsey.com/~/media/mckinsey/business%20functions/operations/our%20insights/smart%20cities%20digital%20solutions%20for%20a%20more%20livable%20future/mgi-smart-cities-full-report.pdf
Urban mobility at a tipping point
https://www.mckinsey.com/capabilities/sustainability/our-insights/urban-mobility-at-a-tipping-point
An integrated perspective on the future of mobility
https://www.mckinsey.com/capabilities/sustainability/our-insights/an-integrated-perspective-on-the-future-of-mobility
Healthcare’s digital future
https://www.mckinsey.com/industries/healthcare/our-insights/healthcares-digital-future
Charting our water future
https://www.mckinsey.com/capabilities/sustainability/our-insights/charting-our-water-future
Transforming government through digitization
https://www.mckinsey.com/industries/public-and-social-sector/our-insights/transforming-government-through-digitization
Public–private collaborations for transforming urban mobility
https://www.mckinsey.com/capabilities/sustainability/our-insights/public-private-collaborations-for-transforming-urban-mobility
Urban world: Meeting the demographic challenge in cities
https://www.mckinsey.com/featured-insights/urbanization/urban-world-meeting-the-demographic-challenge-in-cities
Urban commercial transport and the future of mobility
https://www.mckinsey.com/capabilities/sustainability/our-insights/urban-commercial-transport-and-the-future-of-mobility
Seven lessons on how technology transformations can deliver value
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/seven-lessons-on-how-technology-transformations-can-deliver-value
How COVID-19 has pushed companies over the technology tipping point—and transformed business forever
https://www.mckinsey.com/capabilities/strategy-and-corporate-finance/our-insights/how-covid-19-has-pushed-companies-over-the-technology-tipping-point-and-transformed-business-forever
How to become ‘tech forward’: A technology-transformation approach that works
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/how-to-become-tech-forward-a-technology-transformation-approach-that-works
The new digital edge: Rethinking strategy for the postpandemic era
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/the-new-digital-edge-rethinking-strategy-for-the-postpandemic-era
Three new mandates for capturing a digital transformation’s full value
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/three-new-mandates-for-capturing-a-digital-transformations-full-value
Prioritizing technology transformations to win
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/prioritizing-technology-transformations-to-win
Toward an integrated technology operating model
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/toward-an-integrated-technology-operating-model
How to restart your stalled digital transformation
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/how-to-restart-your-stalled-digital-transformation
Five moves to make during a digital transformation
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/five-moves-to-make-during-a-digital-transformation
Unlocking success in digital transformations
https://www.mckinsey.com/capabilities/people-and-organizational-performance/our-insights/unlocking-success-in-digital-transformations
Explanation: AIGC AI-Generated Content
A Comprehensive Survey of AI-Generated Content (AIGC): A History of Generative AI from GAN to ChatGPT.
Recently, ChatGPT, along with DALL-E-2 and Codex,has been gaining significant attention from society. As a result, many individuals have become interested in related resources and are seeking to uncover the background and secrets behind its impressive performance. In fact, ChatGPT and other Generative AI (GAI) techniques belong to the category of Artificial Intelligence Generated Content (AIGC), which involves the creation of digital content, such as images, music, and natural language, through AI models. The goal of AIGC is to make the content creation process more efficient and accessible, allowing for the production of high-quality content at a faster pace. AIGC is achieved by extracting and understanding intent information from instructions provided by human, and generating the content according to its knowledge and the intent information. In recent years, large-scale models have become increasingly important in AIGC as they provide better intent extraction and thus, improved generation results. With the growth of data and the size of the models, the distribution that the model can learn becomes more comprehensive and closer to reality, leading to more realistic and high-quality content generation. This survey provides a comprehensive review on the history of generative models, and basic components, recent advances in AIGC from unimodal interaction and multimodal interaction. From the perspective of unimodality, we introduce the generation tasks and relative models of text and image. From the perspective of multimodality, we introduce the cross-application between the modalities mentioned above. Finally, we discuss the existing open problems and future challenges in AIGC.
https://arxiv.org/abs/2303.04226
Nature - AI-Generated Content
https://www.nature.com/search?q=AI-Generated%20Content&order=relevance
The agency predicts that the AIGC market space will exceed one trillion yuan, and the commercial application of WIMI Hologram will open a new era
https://t.cj.sina.com.cn/articles/view/1765776051/693f9ab3020010t1e?from=tech
Accelerate industrial layout,WIMI Holographic AIGC Drives the Underlying Innovation of the Metaverse to Empower the Future of Technology
https://xueqiu.com/8520530702/249834504
AI-generated content helping redefine industry
http://www.china.org.cn/business/2022-12/13/content_85009779.htm
Tech giants explore AI opportunities
http://www.china.org.cn/business/2023-02/07/content_85092578.htm
China's digital economy a new growth engine to drive modernization
http://www.china.org.cn/business/2023-04/28/content_85259709.htm
Metaverse frenzy cools as ChatGPT gains steam
http://www.china.org.cn/business/2023-03/08/content_85153040.htm
China ushers in golden era of AI, chatbots.
http://www.china.org.cn/business/2023-02/17/content_85111668.htm
Big coffee point of view?AIGC and causal inference of two-way empowerment
https://t.cj.sina.com.cn/articles/view/1765776051/693f9ab30200117v7?finpagefr=p_104_js
Agency Forecast AIGC Market More Than Trillion; WiMi’s Applications Ushered In A New Era
https://www.newstrail.com/agency-forecast-aigc-market-more-than-trillion-wimis-applications-ushered-in-a-new-era/
Intensive policies promote the AIGC industry to "let a hundred flowers bloom", and WIMI has stepped up efforts to become the focus of the industry
https://t.cj.sina.com.cn/articles/view/1765776051/693f9ab30200115rr?from=tech
The heroes stand together and embrace AIGC tightly, and WIMI Hologram (WIMI.US) actively pays attention to the application development of related scenarios
https://finance.sina.com.cn/jjxw/2023-03-16/doc-imykzspz4582337.shtml
WIMI Hologram Cloud focuses on AIGC field for the AI new era.
https://investorshub.advfn.com/boards/read_msg.aspx?message_id=171854403
WIMI (NASDAQ: WIMI) develops 3D computer-generated hologram technology based on deep learning.
Source
https://cj.sina.com.cn/articles/view/1704103183/65928d0f0200360s0?from=finance
May 11, 2023
With the gradual maturity of 3D printing technology, 3D computer-generated technology has become another way for people to explore the digital world. In this field, hologram technology is a very promising technology. A hologram is an image that uses the principle of light wave interference to achieve a 3D effect. In a hologram, when light passes through an object, interference fringes will be generated, and the information of these fringes will be recorded, and then the 3D effect of the object will be presented through the reflection and refraction of light. Hologram technology can present real 3D objects optically, which can make people feel the actual existence of objects in space, giving people a visual effect of interlacing virtual and real.
Nowadays, due to the continuous development of deep learning technology, 3D computer-generated holograms based on deep learning have become a reality.
It is understood that WIMI (NASDAQ: WIMI) has developed a 3D computer-generated hologram technology based on deep learning. Deep learning can realize automatic object recognition and three-dimensional modeling by training neural networks. At the same time, it can also optimize the light field information, thereby improving the quality and resolution of the hologram. First, WIMI uses deep learning algorithms to analyze the 3D model, extracts the depth information, and then turns the depth image into a hologram after a series of optical processing. The technical process of WIMI 3D computer-generated hologram based on deep learning covers data preparation, model construction, deep learning model training, hologram generation and display, etc.
? Data preparation
To generate a hologram, first the data of the 3D object needs to be prepared. Usually, we can use 3D scanners or manual modeling to obtain data of 3D objects. In this process, attention needs to be paid to the accuracy and resolution of the data. The higher the accuracy of the data, the clearer the resulting hologram, and the higher the resolution, the more details can be presented.
? Model building
After preparing the data of the 3D object, the next step is to build the model. Model building is a key step in converting 3D objects into holograms. In this process, 3D modeling software is required. During the model building process, attention needs to be paid to the details of the model's geometry and texture maps. These factors can affect the quality and effect of the final hologram produced.
? Deep learning model training
After preparing the data of the 3D object and building the model, the next step is to train the deep learning model. Deep learning models are the key technology for converting 3D models into holograms. In this process, we can use deep learning models such as convolutional neural networks (CNN). In the process of model training, a large amount of data needs to be used for training to improve the accuracy and stability of the model.
? Hologram generation
After the training of the deep learning model is completed, the hologram can be generated next. In this process, we need to input the 3D model into the deep learning model, and then render the output into a hologram. During the hologram generation process, it is necessary to pay attention to the setting of the light source and the adjustment of the hologram. These factors affect the visual quality and realism of the resulting hologram.
? Hologram display
Finally, the resulting hologram needs to be displayed. In the process of displaying holograms, light sources and specific projection equipment, such as holographic projectors, are required. During the presentation, it is necessary to pay attention to the position of the light source and the intensity of the light, as well as the setting and calibration of the projection equipment. These factors affect the look and feel and clarity of the final hologram.
At present, the deep learning-based 3D computer-generated hologram technology of WIMI Hologram Research has broad application prospects, including virtual reality, augmented reality, medical imaging and other fields. In virtual reality, holograms can be used to present scenes and objects with 3D effects, allowing users to feel a real sense of presence. In augmented reality, holograms can be used to augment objects in a reality scene, giving users a deeper understanding of the 3D structure of the object. In medical imaging, holograms can be used to present the 3D structure of medical images and help doctors better diagnose conditions.
WIMI (NASDAQ: WIMI) develops an optical scanning holographic reconstruction algorithm based on convolutional neural network.
Source
https://cj.sina.com.cn/articles/view/7651844612/1c815e20402001gdrc?from=finance
May 10, 2023
With the continuous development of science and technology, optical scanning holographic imaging technology has increasingly become a popular technology in the research field. The technique creates a holographic image of a three-dimensional object by recording the interference pattern of light scattered by the object. However, due to its high complexity and large amount of data processing needs, this technology still has many challenges. To solve these problems, in recent years, deep learning techniques have been applied to optical scanning holographic reconstruction to improve the quality and speed of reconstructed holographic images.
Deep learning is a machine learning method based on neural networks, which can automatically learn features and rules from data and be used for tasks such as classification, prediction and generation. In optical scanning holographic reconstruction, deep learning can be used to optimize the reconstruction algorithm and improve the quality of reconstructed holographic images.
It is understood that the research and development team of WIMI (NASDAQ: WIMI) is developing an optical scanning holographic reconstruction algorithm based on convolutional neural network, which processes interference images through convolutional neural network (CNN) to generate high-quality holographic images. The convolution kernel is used to extract the features in the interference image, and then these features are used to generate the holographic image. Compared with traditional reconstruction algorithms, the use of CNN can reduce noise and artifacts, and improve the resolution and sharpness of reconstructed images. In addition, convolutional neural networks can speed up the reconstruction process through parallel processing and optimization algorithms. While achieving high-quality holographic reconstruction, it can also reduce computational complexity and data requirements.
According to the data, WIMI Hologram's convolutional neural network-based optical scanning holographic reconstruction algorithm uses the convolutional neural network model to perform end-to-end learning and reconstruction of optical scanning holographic images. Specifically, firstly, the collected optical scanning holographic image is fed into the convolutional neural network model as input, and then the convolutional neural network model automatically extracts high-level features from the input holographic image, and through backpropagation The algorithm continuously adjusts the network parameters to minimize the reconstruction error, and finally, outputs a high-quality holographic image reconstruction result. Its technical process includes steps such as data acquisition, data preprocessing, convolutional neural network model training, model testing, result evaluation, and optimization and improvement.
Compared with traditional holographic image processing algorithms, WIMI's optical scanning holographic reconstruction algorithm based on convolutional neural network can automatically extract features, learn more complex and advanced features from data, and obtain higher quality reconstruction results , and the whole reconstruction process is carried out in an end-to-end framework, which simplifies the process and improves the efficiency of holographic reconstruction.
The optical scanning holographic reconstruction algorithm based on convolutional neural network is a very potential technology, which has important application value and has broad application prospects in digital holographic imaging, medical image analysis, three-dimensional object recognition and other fields. It is believed that with the continuous development and improvement of technology, it will be applied in more fields and bring more convenient and efficient services to people.
In the future, WIMI will also study how to combine the convolutional neural network-based optical scanning holographic reconstruction algorithm with other computer vision and image processing technologies to achieve more comprehensive and accurate data analysis and image processing. In addition, it will also consider applying this technology to actual production, such as industrial testing, non-destructive testing and other fields, in order to achieve more intelligent and efficient production management.
A spark can start a prairie fire Web3.0 set off a whirlwind, WIMI Hologram (WIMI.US) took advantage of the opportunity to explore the potential track.
Source
https://cj.sina.com.cn/articles/view/1704103183/65928d0f020035zca?from=finance
May 10, 2023
Web3.0, also known as the decentralized Internet, is an Internet architecture based on blockchain technology, which aims to break the centralized Internet model and return data control to users.
The realization of Web3.0 requires the support of many different technologies and standards, including blockchain, distributed ledger, cryptography, smart contract, decentralized storage, etc. These technologies and standards will play an important role in the future development of the Internet and promote the further development and realization of Web3.0.
Try first, Hong Kong establishes Web3.0 Association
Not long ago, the Web3.0 conference in Hong Kong made many people in the industry see the long-lost lively scene, intensive meetings, crowds from all over the world, and the platform of the Chief Executive of the Special Administrative Region, Li Jiachao, like a prosperous scene of a bull market.
At the beginning of this year, the Hong Kong Special Administrative Region established the "Cyberport Web3.0 Base" to better gather global Web3.0 start-ups and talents. In addition, in order to seize the opportunity of Web3.0, the Hong Kong Special Administrative Region Government announced a new "Financial Budget" to allocate 50 million Hong Kong dollars to Cyberport to accelerate the development of Hong Kong's Web3.0 ecosystem, especially to promote cross-sector business cooperate.
However, most importantly, the establishment of the Web3.0 Association in Hong Kong is committed to promoting the enrichment of Web 3.0 application scenarios and promoting the integration of Web 3.0 into life. As one of the world's financial centers, Hong Kong's dynamics have attracted worldwide attention, and its frequent efforts to promote Web3.0 have once again ignited this field. The development of Web 3.0 is now at the golden starting point. This disruptive technology can change many original business operation models and create more new opportunities at the same time.
We must know that since this year, all regions have focused on stimulating the economy, and Web 3.0 is a brand new concept, and Web 3.0 is a historical necessity. Therefore, under the current overall situation, Hong Kong has given unprecedented support to the development of Web3.0, paying equal attention to supervision and promotion, and took the lead in igniting the spark of Web3.0.
Grasping the opportunity of growth, WIMI takes advantage of the opportunity to take off
Although the Web 3.0 industry has just emerged and has not yet formed a large-scale and mature business model, the exploration and enthusiasm for the Web 3.0 industry is quite high. It is worth noting that there are also many listed companies in the capital market that have deployed in the Web3.0 field. Among them, WIMI.US, known as the "Forerunner in the Web3.0 Era", has advanced technology and seized this growth opportunity , to accelerate digital transformation, enhance its own competitiveness and resilience, and lay a solid foundation for future enterprise development.
From a technical point of view, Web 3.0 is not only an iteration of previous technologies, but also an integration of multiple technologies, including 5G, VR, AR, MR, blockchain, chips, cloud computing, and edge computing. It is reported that WIMI has shown its talents, involving multiple Web 3.0 core technologies including 5G, AR, semiconductors, cloud computing, etc., and has made a qualitative leap in recent years, further improving the underlying technology of Web 3.0. At the same time, WIMI has firmly grasped the advantages of talents, introduced a large number of R&D personnel, established a high-quality Web 3.0 technical team, iteratively produced high-quality products, and accumulated a positive reputation.
In addition, Web 3.0 may be an indispensable infrastructure for the Metaverse in the future. The emergence of Web 3.0 is expected to accelerate the digital living space built by the Metaverse. Judging from the current situation, Web3.0 is not only an intelligent Internet, but also a three-dimensional holographic Internet, which provides users with unprecedented interactivity and a high sense of immersion and participation. According to PricewaterhouseCoopers' prediction, the economy related to Metaverse will usher in substantial growth, and the market size is expected to increase from US$5 million to US$1.5 trillion in the next ten years, with a compound growth rate of 253%.
With the prevalence of the metaverse concept, in terms of the metaverse, WIMI has prepared for a rainy day, allowing the virtual and real worlds to continue to merge. The construction of digital scenes is accompanied by changes in technology and content production methods. actions in other fields. In the future, WIMI will deepen its main business field, and at the same time, will join hands with multiple partners in the industry chain to gather industry strength and provide a good impetus for the sustainable development of Web3.0.
end
From the perspective of the market's promotion of the industry, according to the "Global Web3.0 Technology Industry Ecological Development Report (2022)" data released by the Institute of Information and Communications Technology, the global Web3.0 project investment is booming. As an epoch-making technology, Web 3.0 has won the favor of capital, and industry leaders are optimistic about the track of Web 3.0, which will surely become the next outlet.
With the continuous increase of capital support for Web3.0 and the vigorous promotion of enterprises, the development of Web3.0 is expected to further accelerate, and the application scenarios will continue to expand. Undoubtedly, the era when Web 3.0 can show its talents has come, and as long as you can seize the opportunity on the Web 3.0 track and find the right position, you may be able to overtake in a corner.
Chinasoft International became an ecological partner of Wenxin Qianfan large-scale model platform, and jointly explored the implementation of the large-scale model industry with Baidu Smart Cloud.
Source
https://www.chinasofti.com/news/2624.htm
May 11, 2023
.....https://www.chinasofti.com/news/2624.htm
-------------------------------------------------------------------------------------------------------
The 2022 China Government Procurement Awards Announced! Jiefanghao won the "Digital Procurement Outstanding Contribution Award".
Source
https://www.chinasofti.com/news/2625.htm
May 11, 2023
....,https://www.chinasofti.com/news/2625.htm
Chinasoft International joins hands with Huawei to create a joint content integration management solution to stimulate the vitality of corporate content.
Source
https://www.chinasofti.com/news/2620.htm
May 11, 2023
........https://www.chinasofti.com/news/2620.htm
-------------------------------------------------------------------------------------------------------
Shenkaihong appeared at Huawei China Partner Conference 2023, using digital technology to enable intelligent coal mines.
Source
https://www.chinasofti.com/news/2621.htm
May 11, 2023
.....https://www.chinasofti.com/news/2621.htm
-------------------------------------------------------------------------------------------------------
Chinasoft International and Huawei Government One Netcom jointly released the "Digital County Area" solution.
Source
https://www.chinasofti.com/news/2622.htm
May 11, 2023
.....https://www.chinasofti.com/news/2622.htm
-------------------------------------------------------------------------------------------------------
Hand in hand?Chinasoft International was awarded the Huawei Software Service Professional Certificate.
Source
https://www.chinasofti.com/news/2623.htm
May 11, 2023
....https://www.chinasofti.com/news/2623.htm
Chinasoft International made a wonderful appearance at the Huawei China Partner Conference, showing the achievements of strategic cooperation in an all-round way.
Source
https://www.chinasofti.com/news/2616.htm
May 10, 2023
.........https://www.chinasofti.com/news/2616.htm
-------------------------------------------------------------------------------------------------------
Chinasoft International joins hands with Huawei in the oil and gas industry to solve the "last mile" problem of operational safety.
Source
https://www.chinasofti.com/news/2617.htm
May 10, 2023
..........https://www.chinasofti.com/news/2617.htm
-------------------------------------------------------------------------------------------------------
Chinasoft International joins hands with Huawei to write a new chapter in the construction of smart parks.
Source
https://www.chinasofti.com/news/2618.htm
May 10, 2023
...https://www.chinasofti.com/news/2618.htm
Hong Kong Web3.0 Festival: WiMi Hologram Cloud(WIMI) Grasps The Golden Chance.
Source
https://www.newstrail.com/hong-kong-web3-0festival-wimi-hologram-cloud%EF%BC%88wimi-grasps-the-golden-chance/
May 8, 2023
Recently, the “2023 China Hong Kong Web3.0 Carnival” jointly organized by Wanxiang Blockchain Lab and HashKey Group was solemnly opened in the Hong Kong Convention and Exhibition Center, China. During the four-day agenda, the top people, technologies, projects and capital of the global Web3.0 industry will gather here to discuss the core issues of various Web3.0 tracks, such as regulatory policies, Web3.0 infrastructure, Metaverse, and share the development trends and challenges of the industry.
Internet revolution that full of technology
Web3.0 is in the spotlight of the market, so why say Web3.0 is the third generation of the Internet era? In a narrow sense, users in the Web1.0 stage can only passively browse the web, Web2.0 stage users rely on the platform to create and spread information, and Web3.0 stage users can manage data more independently and gain value in Internet content creation.
From a broad point of view, Web3.0 through the design of new technical agreement and construction of new infrastructure, make the Internet more decentralized, more secure, allowing users to master their own digital identity and digital assets, is the first time in the digital world created real oriented data elements approval, circulation, trading economic system.
With the development of the Internet, the decentralized and creator-oriented network will become the mainstream. Web3.0 is an open and decentralized Internet model, which has a revolutionary change power. This is the inevitable product of the development of the Internet to a certain stage, but also the inevitable result of social and cultural progress.
WiMi Hologram Cloud Seizes the Web3.0 development opportunities
Web3.0 is a sea of stars, and all this is in its infancy. However, this puts forward high requirements for enterprises to build a development environment, which is not an opportunity, but also a challenge. In fact, the Metaverse holographic AR first share – WiMi Hologram Cloud (NASDAQ: WIMI) early in the field, with the development trend of the Internet and national development strategy research and forward-looking layout, a number of frontier scientific research and technical cooperation, and integration of various resources, for the future development of Web3.0 provide powerful product iteration and service innovation.
Industry analysis, behind the germination of Web 3.0 is the continuous maturity of human cutting-edge technologies such as blockchain and artificial intelligence. Given the potential of the industry in the future, WiMi Hologram Cloud is excited about Web3.0 and taking action to embrace technological change. The company is committed to developing AIGC based on artificial intelligence, big data and high computing power. The explosion of AIGC brings new opportunities for it. It has launched new 5G communication products integrating AIG C and immersive experience based on 5G + AI.
It is worth mentioning that WiMi Hologram Cloud has a good foundation for AI services:
- leading algorithm capabilities,
- massive data resources, and
- broad AI applications.
In the future, WiMi Hologram Cloud will continue to develop technology research and development in AI vision, natural language processing and other fields, continue to invest in computing power, and anchor the development of “Web3.0 ecological innovation”. WiMi Hologram Cloud The ecological foundation of Web3.0 goes first, and its development and paving can better meet the upgrading of the base layer, extension layer and application layer.
To sum up
Web 3.0 will be used widely in the future. Web 3.0 can promote the development of sustainable cities, and urban planning based on Web 3.0 can make better use of urban space resources, improve the transportation system, improve urban energy efficiency, reduce urban pollution, and so on. At the same time, as an epoch-making technology, Web 3.0 has gained the favor of capital. With the continuous increase of capital support for Web3.0, and the strong promotion of enterprises in cities and WiMi Hologram Cloud represented by Hong Kong, the development of Web3.0 is expected to further accelerate, and the application scenarios are expected to continue to expand.
WiMi Hologram Cloud Made Innovation In Its 6G Tech Development.
Source
https://www.newstrail.com/wimi-hologram-cloud-made-innovation-in-its-6g-tech-development/
May 6, 2023
It is learned that the 25th Institute of the Second Institute of Aerospace Science and Industry of China has completed the first real-time wireless transmission communication experiment of terahertz orbital angular momentum in China, achieving a major technological breakthrough and providing important guarantee and support for the development of 6G in China.
Important breakthroughs in 6G technologies
It is reported that this experiment uses the high-precision spiral phase plate antenna to realize four different beam modes in the 110GHz frequency band, and completes 100 Gbps wireless real-time transmission in the 10GHz transmission bandwidth, maximizing the bandwidth utilization.
Terahertz communications, as a key technology to realize the 6G vision, has been recognized by the global communications industry. Earlier, the Federal Communications Commission (FCC) voted unanimously to open the “terahertz” spectrum for future 6G network services for innovators to test 6G technology.
Compared with 5G, the communication capacity of 6G will be more than 10 times that. The development of 5G to 6G will be a process from the interconnection of everything to the “intelligent connection of everything, digital twin”, and finally realize the three-dimensional linkage of the physical world, virtual world, and people. Today, when 5G technology is just popularized, China has taken the lead in achieving key technological breakthroughs in 6G technology, which will undoubtedly bring new vitality to the global communication revolution.
The Ministry of Industry and Information Technology is accelerating 6G development and exploring market opportunities
The Ministry of Industry and Information Technology said that the ministry will focus on the information and communication industry to improve and provide a solid support for high-quality economic and social development. One is to consolidate the base of the digital facilities. Firstly, China will study and introduce policies and measures to promote the coordinated development of new information infrastructure and promote the integrated development of new infrastructure.
Second, China will accelerate innovation in the technological industries. It will accelerate breakthroughs in key core technologies such as 6G, optical communication, and quantum communication, and step up research and development of cutting-edge technologies such as artificial intelligence, blockchain, and digital twinning. Third, The team will deepen the application of industrial integration. They will vigorously promote the integrated application of 5G and other next-generation information and communication technologies in vertical industries, information consumption, and people’s livelihood.
Judging from the latest progress, after 5G, China still leads the world in 6G technology. In this new era, 6G technology will lead the global communication revolution and bring more convenience and intelligence to human life.6G will drive the communication industry chain to have a higher degree of scientific research breakthroughs, greater capital expenditure, and broader market prospects.
Research firm Market Research Future expects the global 6G market to exceed $340 billion in 2040, with a compound annual growth rate of 58.1%. It believes that China will be one of the world’s largest 6G markets, with nearly 50 percent of global 6G patent applications coming from China, ranking first.
WiMi advances the age of 6G
Although it is still in the early research stage of 6G technology, with the deepening of the development of the 6G industry, satellite Internet, high-speed wireless transmission, network, and data center energy-saving sectors are expected to meet new development opportunities. It is understood that WiMi Hologram Cloud (NASDAQ: WIMI), a technology company with deep technology foundation advantages, has long accelerated the layout of humanoid robots, 5G, universe, quantum computing, and other cutting-edge fields, under the call of the Ministry of Industry and Information Technology, comprehensively promote the 6G application technology research and development, will undoubtedly be a piece of the pie when the arrival of the 6G wave.
6G is the endogenous integration of communication, computing, perception, artificial intelligence, blockchain, security, satellite, and other technologies. It will become the commanding point in the digital economy and play a very strong driving role in the development of digital industrialization and industrial digitalization. Therefore, WiMi’s 6G technology will promote the development of the digital economy and provide new development opportunities for all walks of life. For example, in the field of education, 6G technology will improve the quality of online education, and WiMi allows more people to enjoy high-quality educational resources. In the transportation field, 6G technology will make self-driving cars a reality, bringing more convenience for people to travel.
It is worth noting that, aiming at the hot demand of 6G communication and following the forefront of international communication technology, WiMi’s research and development team is studying 6G intelligent holographic radio technology. It is reported that 6G intelligent holographic radio realizes the reconstruction of electromagnetic space through interferometry and computing holographic technology. On the one hand, it realizes the full space-time-frequency multiplexing of wireless communication with higher resolution, and on the other hand, it realizes the fusion of wireless communication imaging and perception. WiMi’s 6G intelligent holographic radio technology will help build a new network of the intelligent and efficient interconnection of people, machines, and things, and finally, realize the beautiful vision of “all things and digital twin”.
To sum up
6G technology is the next generation of wireless communication technology after 5G, and its transmission speed and network connection stability will be faster and more stable than 5G. At present, China is leading the world in 5G construction, and the progress of 6G research and development has led the world. Faced with the huge market space and economic benefits, WiMi upholds the original aspiration as a rock and moves forward vigorously to build a win-win digital future.
To sum up, China’s key technological breakthroughs in 6G technology mark China’s leading position in the global communications revolution. With this new achievement, 6G technology will bring new vitality to the global communication revolution and bring more convenience and intelligence to human life. So look forward to the arrival of a new era of 6G technology and contributing China’s strength to the global communications revolution.
WiMi Hologram Cloud Develops An Eye Movement Focus System for Next-Gen Holographic Head-Worn Displays.
Source
https://finance.yahoo.com/news/wimi-hologram-cloud-develops-eye-120000860.html
May 8, 2023
WiMi Hologram Cloud Inc. (NASDAQ: WIMI), a leading global Hologram Augmented Reality ("AR") Technology provider, today proposed a new technical architecture aiming at breaking the current technical bottleneck in the field of HWD. The Eye Movement Focus system will be applied to the next generation of H-HWD to provide a better visual experience for users. In this optical architecture, the SLM is imaged at the center of the rotation of the eye, allowing instantaneous control of the FOV without any dynamic optical components.
WiMi applied an adjustable optical structure system with independent intellectual property in its first generation of HoloAR Lens products. The innovative structure design significantly improved the HWD viewing and wearing comfort. None of the current HD can be compared to the FOV of human vision. Therefore, earlier solutions are based on foveated point displays that generate only computerized digital holographic content of the object the eye is looking at and use low-resolution microdisplays to display peripheral images. Combining a mobile microdisplay with a wide FOV peripheral display is possible, and using a light field or multifocal/zoom approach to achieve natural focus and depth-of-field presentation. The FOV is guided from one area to another using motorized optical components. However, this solution needs to improve brake size and synchronization issues between multiple dynamic components, as it is not possible to use a single dynamic component to control the FOV, both of which would result in a complex and costly system.
Currently, the mainstream HWD technology deals with focus and polydispersion by simulating the wavefront digital image emitted from the displayed 3D object and sending CGH showing the correct viewing angle to eyes, respectively. Thus, users can focus directly on the 3D object they are gazing at, thus eliminating the discomfort caused by conflicting polydispersion adjustments. In holographic HWD, the CGH has typically displayed on a phase space light modulator. Such displays do not require relay optics because the SLM can image at any distance from the eye. However, because the number of pixels in current SLMs is limited, current HWDs are still limited by FOV and EyeBox. The total number of pixels in the SLM sets an upper limit on the spatial bandwidth product of the system since HWD uses binoculars to match human visual ability. For a comfortable viewing experience, one may need more than 80 degrees of FOV and ultra-high definition displays and pixels. And that causes SLM to exceed the capabilities of the technical framework.
In conventional HWD, it is not possible to control the FOV (i.e., to keep the image in the center of the foveated point as the eye rotates to change focus) with CGH. Eye movement will cause the displayed image to move to the periphery. This requires mechanical movement of the SLM or lens to bring the image to the center. WiMi's H-HWD images are at the center of the rotation of the eye. The eye-centered design is at the heart of the architecture of the eye movement focus system. Since the SLM images are at the center of eye rotation, changing the direction of the foveated point is handled by changing the direction of light through the CGH. WiMi's eye movement focus system changes the direction of light without any mobile components by adding diffractive lens terms and grating terms to the CGH,
Compared with the traditional holographic HWD architecture, WiMi's eye movement focus system has significant advantages. By simply modifying the CGH to track foveated point, users can digitally control the instantaneous FOV. The removal of mechanical components can reduce the instability of mechanical components, reduce the weight of the mechanical control side of the device, and exclude the failure of mechanical control. The system allows real-time digital control of the instantaneous FOV, providing a natural foveated point display without mobile mechanical parts, greatly improving the comfort of the H-HWD.
The challenge that prevents HWD from becoming a next-generation computer platform is the discomfort caused by the bloated and cumbersome nature of HWD devices and prolonged use. With the application of WiMi's eye movement focus system, the comfortableness of H-HWD will be significantly improved. This will bring H-HWD a broader application scenario.
KaihongOS won the "Quality Digital Product Award" at the 6th Digital China Construction Summit.
Source
https://www.chinasofti.com/news/2614.htm
May 9, 2023
.......https://www.chinasofti.com/news/2614.htm
Injecting new impetus into the digital future, Chinasoft International attended Huawei China Partner Conference 2023.
Source
https://www.chinasofti.com/news/2613.htm
May 9, 2023
.....https://www.chinasofti.com/news/2613.htm
"Industrial Internet" advanced to "Industrial Intelligence", Chinasoft International launched a self-developed industrial core board.
Source
https://www.chinasofti.com/news/2611.htm
May 8, 2023
...... https://www.chinasofti.com/news/2611.htm
Wang Chenglu of Shenzhen Kaihong accepted an exclusive interview with People's Daily: Build Kaihong's safe digital base and practice Xinchuang Digital China.
Source
https://www.chinasofti.com/news/2610.htm
May 8, 2023
....https://www.chinasofti.com/news/2610.htm
Chinasoft International participated in the 40th Plenary Session of the Internet and Application Technology Working Committee of China Communications Standards Association and delivered a keynote speech.
Source
https://www.chinasofti.com/news/2609.htm
May 6, 2023
....https://www.chinasofti.com/news/2609.htm
Huawei China Partner Conference | Chinasoft International sincerely invites you to go on a digital innovation journey.
Source
https://www.chinasofti.com/news/2608.htm
May 6, 2023
The "Huawei China Partner Conference 2023" with the theme of "Gathering together to create aspirations" will be held at the Shenzhen International Convention and Exhibition Center (Bao'an) from May 8th to 9th. As an outstanding member of Huawei's "New Long March of Innovation and Technology" team, Chinasoft International will soon appear at the Huawei China Partner Conference, joining hands with Huawei and its partners to inject new momentum into the digital future.
.....
Chinasoft International assisted the National Innovation Center to jointly build the "China Solution" for the digital key infrastructure of high-end smart home appliances.
Source
https://www.chinasofti.com/news/2603.htm
May , 2023
Recently, the 2022 Shandong Provincial Key R&D Plan (Major Science and Technology Innovation Project) led by the National High-end Intelligent Household Appliance Innovation Center "Key Technology Research and Application Demonstration of Digital Infrastructure for High-end Smart Appliances " The project launch and implementation plan demonstration meeting was successfully held, and Chinasoft International was invited to participate as a key project team member. This meeting aims to implement the project research implementation plan and management requirements, and comprehensively deploy the project promotion work.
In order to build a new digital infrastructure for high-end smart home appliances and seize the right to define smart home appliances in the future, in this research project, Chinasoft International, with its excellent scientific research foundation and rich project experience, is responsible for the task of "Key Technology Research of Basic Software for Smart Home Appliances". Together with Qingdao Guochuang Intelligent Home Appliance Research Institute Co., Ltd. and other institutions, we will develop a set of common framework, "cloud-edge-end" architecture, high interoperability, sensor integration, high reliability, and distributed computing capabilities equal to Integrated basic software system. The software has a distributed computing architecture for smart home appliances, heterogeneous networking and interconnection technologies for smart home appliances, key technologies for the accumulation of common capabilities for smart home appliances, security and trustworthy technology for smart home appliances, and a "cloud-edge-end" reference architecture for smart home appliances.
In this research topic, Chinasoft International will give full play to the company's innovation capabilities in smart home scenarios, build capabilities in the basic software operating system of smart home appliances , and cooperate with China Innovation Center to realize network communication between multiple devices by building a distributed system Coordinated control of resources improves communication efficiency and accuracy of devices and reduces power consumption between devices; through unified management of heterogeneous networks, heterogeneous networking technology shields hardware differences, unifies hardware layers, and solves the problem of interconnection and interoperability of heterogeneous network devices; Cooperate with heterogeneous network hardware support, implement unified protocol definition for network layer data, solve data transmission problems in heterogeneous networks; and customize the whole house appliance model based on "software-defined home appliances" to achieve cross-protocol/cross-device interconnection, As well as the abstraction of smart home appliance capabilities, and low-code parallel programming issues for smart home appliances.
Chinasoft International Intelligent Internet of Things Group ( AIG ) takes " the leader of intelligent networking products and services " as its vision, "OpenHarmony technology promotes the construction of intelligent networking in thousands of industries " as its mission, and takes " independent innovation of intelligent networking products and service experts " as its mission. Positioning, join hands with Shenzhen Kaihong to continue to polish a brand-new all-things intelligent connection operating system ( KaihongOS ) and a super device management platform, enabling the construction needs of intelligent Internet of Things in N industries. In key industries such as smart water conservancy, smart parks, smart education, smart transportation, and urban lifelines, we continue to launch standardized smart terminal boxes, edge smart development kits and other edge computing smart hardware self-developed products, and at the same time provide more competitive software for the industry. Hardware-integrated intelligent solutions, give full play to the role of industry leaders and Hongmeng ecological leaders, and promote the digital transformation of thousands of industries and the construction of intelligent Internet of Things.
In the future, Chinasoft International will always follow the practice of emphasizing original ideas in the research process of the project "Key Technology Research and Application Demonstration of Digital Infrastructure of High-end Smart Home Appliances", and maintain the advancement and leadership of key technologies of digital infrastructure in the field of high-end smart home appliances. sex. Help the National Innovation Center to jointly build the "China Solution" for the digital key infrastructure of high-end smart home appliances.
WIMI (NASDAQ: WIMI) realizes the technology of breaking the crosstalk limitation of dynamic holography through the orthogonality of high-dimensional random vectors.
Source
https://finance.sina.com.cn/tech/roll/2023-05-05/doc-imystpau3413832.shtml
May 5, 2023
Digital holography is the most promising technological path to achieve true 3D spatial imaging, but combining complex digital images with full depth control remains a challenging problem. With the development of technology, we have made great technological progress in 3D holographic projection, but the available methods are still limited to creating images on a few planes, only with narrow depth of field or low resolution. True 3D holography also requires full depth control and dynamic imaging, capabilities currently hampered by high crosstalk. Its applications are limited due to issues such as depth control and high crosstalk. One of the key issues is how to store all the information needed to render complex 3D images in 2D without crosstalking projected images at different depths.
The current holographic technology is affected and limited by data crosstalk because the holographic image information is compressed on one plane, which means that when we are ready to project and image images with different depths, these images will interfere with each other and generate crosstalk. In order to solve this problem, WIMI (NASDAQ: WIMI) researched a new method, that is, the technology of realizing crosstalk control of dynamic holography through the orthogonality of high-dimensional random vectors.
The technique works by pre-shaping the wavefront during Fresnel diffraction. That is, for each depth, a high-dimensional random vector is multiplied with the image, thus introducing a random phase for each depth. In this process, a spatial light modulator is used to create a pre-shaped wavefront with random phase. In this way, images at each depth are preprocessed into a complex amplitude multiplied with a random phase, which is introduced to eliminate crosstalk due to the near-orthogonality of large-dimensional random vectors. Therefore, when performing holographic image reconstruction, the information of each depth is presented independently without interference. This enables 3D projection with full depth control while eliminating crosstalk limitations. Another critical step is converting Fresnel holograms to Fourier holograms. Fourier holography can be achieved by pre-shaping the wavefront so that the Fresnel diffraction is locally reduced. Fourier holography allows the introduction of random phases for each depth without changing the image projection at a specific depth, thus eliminating the problem of crosstalk. Therefore, large-volume 3D images with high density, full depth control, and dynamic 3D projection capabilities can be generated using this method.
WIMI holography breaks the crosstalk limitation of dynamic holography through the orthogonality of high-dimensional random vectors. This technology can include random phases for each depth without affecting the image projection at a specific depth, eliminating the Crosstalk due to near-orthogonality. The resulting Fresnel hologram, or Fourier hologram, can then be transferred to a suitable holographic medium, and then a 3D image can be generated by shining a laser on the holographic medium. During this process, the light intensity and angle of the projection need to be adjusted to produce the desired 3D effect. If dynamic projection is required, it can be achieved by adding control circuitry to the laser and optics. This technique breaks the crosstalk limitation of dynamic holography by combining wavefront preshaping with high-dimensional random vectors. This approach enables high-density, large-volume 3D images with full depth control and dynamic projection capabilities.
WIMI Holography (NASDAQ: WIMI) uses the orthogonality of high-dimensional random vectors to break the crosstalk limitation of dynamic holography, which is an innovative solution. Through this technology, full depth control and dynamic projection capabilities can be achieved, while eliminating random vectors due to large dimensions can provide more advanced, accurate, and intuitive images and experiences for multiple industries. With the continuous development and improvement of this technology, it is believed that it will play a more important role in more fields.
WIMI Hologram Cloud focuses on AIGC field for the AI new era.
Source
https://www.newstrail.com/wimi-hologram-cloud-focuses-on-aigc-field-for-the-ai-new-era/
May 4, 2023
AIGC is undoubtedly the biggest hot spot in the venture capital circle this quarter. Since the launch of the artificial intelligence dialogue robot program ChatGPT has attracted wide attention because it is far higher than the text feedback ability of the same program and the excellent performance in understanding human questions, the industry regards it as a representative of the current strong artificial intelligence. This is also the second strong AIGC boom after the advent of AlphaGo.
ChatGPT
An important reason for the attention is the introduction of the new technology RLHF. The so-called RLHF is to optimize the model algorithm through human feedback so that the output result of the AI model is consistent with human common sense, cognition, and values. In short, ChatGPT is “more human” than the AI models of the past.
Market Pattern and future direction
ChatGPT The bright performance has triggered a new round of AIGC preparation and upgrading, and the AIGC industry ecology is also accelerating the formation and development. According to the market agency forecast, 10% -30% of the images will be generated in the next five years by AI. According to the Qubit report, by 2030, the market size of AIGC will exceed one trillion yuan, with broad space in both content production and extended applications.
The popularity of ChatGPT has greatly improved users’ cognition of AIGC, which is of great significance to the popularization and promotion of AIGC applications. AIGC-related products have been increasingly popular in the world. Ordinary users have experienced powerful AI technology, and their interest in AIGC products is high.
ChatGPT is the inevitable product of the development of the artificial intelligence industry chain to a certain stage. Behind it is the profound productivity change brought about by the generated content of artificial intelligence technology. With the development of artificial intelligence technology, the field of AIGC presents the trend of continuous enrichment of content types, continuous improvement of content quality, increasing versatility of the technology, and increasing levels of automation.
Intensive policies to promote industry development
Open source Securities in the research report analysis that from the layout of technology giants, Microsoft, Google, Baidu, and other companies have said that they will take the lead in applying AI technology to the search field, conversational AI can significantly improve the search experience and may become the fastest application scenario in the future. In addition, AIGC is also widely used in office software, education, medical care, city, metaverse, and other vertical industries, and the commercialization of AIGC continues to advance.
Undeniably, the application of AIGC is accelerating, and the commercial space is gradually being opened. The launch of relevant management policies is expected to guide the development direction of the AIGC industry and promote the long-term healthy development of the industry. At the same time, AIGC, as one of the three infrastructures of the universe and Web 3.0, will assist the universe to accelerate the reproduction of the physical world, greatly expand the boundary of content creation and business model, and realize spontaneous and organic growth. In this context, it is necessary to actively grasp the AIGC application in the Internet competition.
WIMI Hologram Cloud is leveraging the AIGC to promote industry upgrading
AIGC is based on strong AI capabilities and big data capabilities, head technology enterprises have a certain space for development in terms of technology reserves and product capabilities, attracting major technology enterprises to pour into the track. It is reported before the AIGC tide hit, as the world’s leading holographic AR application technology provider, WIMI Hologram Cloud(NASDAQ: WIMI) with its in the universe, digital industry, in the field of artificial intelligence and rich successful practice and resource reserves, in AIGC content auxiliary production track, continuous accumulation, received extensive attention and recognition of the industry.
Technology will lead the industry to change, AIGC empowerment will usher in new opportunities for digital marketing, and WIMI Hologram Cloud is taking the road of AI practice. To strengthen the training and application ability of AI in vertical industries, and expand the new content production structure and marketing field form, WIMI Hologram Cloud launched AIGC + virtual people to carry out deep learning training for virtual people image and voice, as to add AI “intelligent” image for virtual people. In the future, WIMI Hologram Cloud will also access more AI creation capabilities for virtual IP, create a more full and vivid virtual IP, let virtual people break through the barriers to interaction with reality, and create a new production mode of AI + content.
It needs to be paid attention to. Behind the emergence of AIGC is the accumulation and fusion of AI technologies such as generation algorithms, pre-training modes, and multimodal modes. WIMI Hologram Cloud The team laid out in advance, built two bases of big data capabilities and artificial intelligence platform capabilities, and developed an interactive virtual reality scene holographic imaging system based on artificial intelligence technology. The system uses artificial intelligence technology to enable virtual reality, improve content quality, optimize and promote personalized user experience, and promote more effective interaction between users and technology. WIMI Hologram Cloud Independent developed AIGC content, enabling products into the market.
Future development trends and impact
The year 2023 can be said to be the first year of the AIGC industry. With the continuous upgrading and iteration of deep learning algorithms, the general computing capability of AIGC science and technology is evolving rapidly. Domestic and overseas technology enterprises have entered the bureau, more and more AI tools have been developed, and the market imagination space is also accelerating the expansion with the help of the power of AI. In the future, the application scenarios of AIGC will be further diversified, involving more comprehensive fields, and will eventually further move towards the direction of realizing independent content creation. And WIMI Hologram Cloud will continue to embrace change with persistent industry accumulation and an open mind and make a contribution to the world AI industry.
WIMI (NASDAQ:WIMI) develops a humanoid control system based on mixed-signal BCI brain-computer interface technology.
Source
https://t.cj.sina.com.cn/articles/view/1747383115/6826f34b020018m40?from=tech
May 4, 2023
In recent years, hybrid BCI technology has gradually been widely used in the field of brain-computer interface, which combines multiple complementary signal sources, such as electromyography (EMG), electroencephalogram (EEG), electrooculogram (EOG) and steady-state Visual evoked potential (SSVEP), etc., through data fusion technology to improve accuracy and robustness. Hybrid BCI technology has become an important technical framework because it can record and analyze multiple complementary signals, and use data fusion technology combined with machine learning algorithms to fuse these signals. It is reported that WIMI has made significant progress in the field of hybrid BCI technology, and has developed a humanoid control system based on the hybrid BCI brain-computer interface.
According to the data, the technical realization path of the humanoid control system of WIMI (NASDAQ: WIMI) hybrid BCI brain-computer interface includes multiple steps.
- First, multiple sensors need to be used to record multiple complementary signals such as electromyography (EMG), electroencephalogram (EEG), electrooculogram (EOG) and event-related desynchronization (ERD), steady-state visual evoked potential ( SSVEP) and near infrared spectroscopy (NIRS). The signals recorded by these sensors need to be pre-processed to remove interfering signals, noise reduction, etc.
- Then, machine learning algorithms are used to perform feature extraction, signal classification and other operations on the signal, so as to realize accurate decoding of the brain-computer interface signal.
- Finally, map the decoded result to the humanoid robot control to realize the control of the humanoid robot.
Compared with traditional BCI technology, the humanoid control system of WIMI holographic hybrid BCI brain-computer interface has many advantages.
- First, by recording and analyzing multiple complementary signals, the activity information of the brain can be obtained more comprehensively, thus improving the accuracy and robustness of decoding.
- Secondly, data fusion technology can further improve the robustness and reliability of the system and avoid recognition errors caused by the specificity of a single signal. In addition, the application of machine learning algorithms can further improve the decoding speed and accuracy, thereby increasing the information transmission rate.
- Finally, the humanoid control system based on hybrid BCI technology can achieve more natural and precise control, and can be applied to many fields such as robot assistance and assistance for the disabled.
Compared with traditional BCI technology, the specific advantages of hybrid BCI technology are as follows:
Improved accuracy and robustness:
Hybrid BCI technology utilizes multiple complementary signal sources such as electromyography (EMG), electroencephalogram (EEG), electrooculogram (EOG) and steady-state visual evoked potential (SSVEP) ) event-related desynchronization, etc., through data fusion techniques to improve accuracy and robustness. Multiple signal sources can provide more comprehensive and reliable information than a single source, increasing the accuracy and robustness of the system.
Enhanced information transmission rate:
In traditional BCI technology, a single signal source may not be able to provide enough information to achieve high-speed human-computer interaction. Hybrid BCI technology, on the other hand, combines multiple signal sources to enhance the rate of information transmission, enabling faster and more natural human-computer interaction.
Improved applicability and operability:
Hybrid BCI technology takes advantage of multiple signal sources, which can improve system applicability and operability. For example, some users may not be able to interact effectively through a single signal source, but the combination of multiple signal sources can provide more choices and make it easier to achieve effective interaction.
Improved training efficiency:
In traditional BCI technology, the training of a single signal source usually requires a lot of time and effort. The hybrid BCI technology can take advantage of multiple signal sources, improve training efficiency through data fusion technology, and achieve reliable interaction faster.
The technical framework of hybrid BCI is mainly based on technologies such as signal acquisition, signal preprocessing, feature extraction, feature selection, and classifier training. Higher control precision and robustness can be achieved through the combined use of multiple signal sources and machine learning algorithms. WIMI's hybrid BCI humanoid control system uses a variety of signal sources, including electromyography (EMG), electroencephalogram (EEG), electrooculogram (EOG) and near-infrared spectrum, etc., and integrates these signals through data fusion technology Sources are combined to improve the accuracy and robustness of the control system on the one hand. At the same time, the system also has high-speed information transmission capabilities, enabling users to realize natural and efficient human-computer interaction through simple thought commands.
The technical framework and specific implementation path of WIMI (NASDAQ:WIMI) hybrid BCI can be divided into the following steps:
Signal Acquisition:
Use multiple sensors to acquire multiple complementary signal sources, such as electromyography (EMG), electroencephalogram (EEG), electrooculogram (EOG), event-related desynchronization (ERD), steady-state visual evoked potentials (SSVEP) and near-infrared spectroscopy (NIRS), etc. These signal sources can provide different information, such as muscle movement, brain activity, attention, etc.
Signal preprocessing:
Preprocessing the collected signal, such as denoising, filtering, feature extraction, etc., to improve the quality and accuracy of the signal. For example, commonly used preprocessing methods such as average removal, bandpass filtering, wavelet transform, etc. can be used to reduce signal noise and extract useful features.
Feature extraction:
Use machine learning algorithms to extract features from the preprocessed signal, such as time domain features, frequency domain features, wavelet transform, etc. These features can provide important information about brain or muscle movement.
Feature selection:
Feature selection is performed according to the importance of features to reduce the number of features and computational complexity. For example, regularization-based sparsification can be used to select important features.
Classifier training:
use the training set to train the classifier, such as support vector machine (SVM), random forest (Random Forest), etc. Classifiers can map input signals to specified actions or commands.
System integration:
Integrate all components into a complete system, including signal acquisition, preprocessing, feature extraction, feature selection, and classifier training. The system can communicate with external devices, such as robots, prosthetics, or game controllers, and send commands or actions to the device.
WIMI's (NASDAQ: WIMI) hybrid BCI brain-computer interface humanoid control system also has good applicability and operability, and can adapt to the needs and characteristics of different users. The training efficiency of the system is also high, and users can complete the training in a short time and quickly achieve reliable interactive effects.
WIMI holographic hybrid BCI brain-computer interface humanoid control system has broad application prospects. For example, it can be applied to the rehabilitation and auxiliary treatment of the disabled. By monitoring and identifying the muscle and brain signals of the disabled, it can realize the precise control of humanoid robots, thereby helping the disabled to live and work more autonomously. In addition, this technology can also be widely used in the field of production and manufacturing. Through the monitoring and identification of employees' muscle and brain signals, precise control of production line robots can be achieved, thereby improving production efficiency and product quality. Apply it to fields such as medical care, smart home and entertainment to bring people a more convenient and efficient life experience. In addition, WIMI will continue to promote technological innovation and research and development, constantly improve product performance and functions, and provide users with better services and experiences. With the continuous development and application of hybrid BCI technology, WIMI holographic hybrid BCI brain-computer interface humanoid control system will bring users a more intelligent and efficient human-computer interaction experience, and make more contributions to the development of brain-computer interface technology.
WiMi Hologram Cloud Developed Multiple Chips for 3D Holographic LiDAR.
Source
https://finance.yahoo.com/news/wimi-hologram-cloud-developed-multiple-120000347.html
May 3, 2023
WiMi Hologram Cloud Inc. (NASDAQ: WIMI) ("WiMi" or the "Company"), a leading global Hologram Augmented Reality ("AR") Technology provider, today announced that five chips have been designed and developed based on 3D holographic LiDAR. These chips are designed with a Bi-MOS structure, a new process technology that integrates BJT and MOS devices on the same chip, combining both advantages on the same substrate. This is also a new design idea based on the high speed, performance, and accuracy required for information processing, communication, and network circuits.
In Bi-MOS structure, bipolar devices have strong driving capability, high analog accuracy, and speed, but high power consumption and low integration, which cannot realize super large-scale integrated circuits. In contrast, MOS devices have weak driving capability and low speed but low power consumption, high integration, and interference immunity. In the 3D holographic LiDAR applications, the above two devices cannot meet alone because of the large amount of information, the need for accuracy, anti-interference, and large-scale data integration processing. The Bi-MOS structure is an effective solution in high-performance digital and analog integrated circuits. 3D holographic LiDAR chip design requires a reliable technology route for high speed, high integration, and high-performance ultra-large scale integrated circuits.
The five chips designed by WiMi are Coherent 3D Holographic LiDAR Diffuse Target Detection Chip, Tunable 3D Holographic LiDAR Chip, 3D Holographic LiDAR-based SLAM and Fusion Localization Chip, In-vehicle 3D Holographic LiDAR-based Road Cross-section Measurement Chip, and 3D Holographic LiDAR Light Source Phase Noise Compensation Chip for FMCW. These will be used in engineering, construction, consumer products, and autopilot industries.
In consumer electronics, WiMi's 3D holographic LiDAR can be integrated into camera arrays for holographic spatial scan presentation or high-precision scanning of objects to achieve AR applications. The current AR scanning technology combined with consumer electronics must be more mature. There is no professional chip to process it, so only relatively fuzzy and distorted digital imaging can be generated. However, this has generated a lot of interest in developing technologies, such as entertainment, tools, or engineering-assisted applications that do not require high-precision data. If integrated with a high-precision professional 3D holographic LiDAR chip, it will play a key role in forming high-precision restored digital images, and the fields that can be applied will be significantly expanded.
3D holographic LiDAR can also be applied with HD camera systems and other sensors. For example, ultra-high precision holographic 3D spatial images can be obtained with UAV mapping and satellite remote sensing technology. This can be applied in professional mapping and related commercial applications, significantly improving the accuracy of LiDAR and realizing high-precision detection in space.
3D holographic LiDAR will replace traditional LiDAR technology in autonomous driving. In recent years, standard LiDAR technology has been widely used in autonomous driving (such as adaptive cruise control). It can accurately map position and distance. Speed-sensing pulse laser and the solid-state beam can measure distance and give efficient real-time feedback to the car control system. But these gadgets can only reach Level 1 or 2 in autonomous driving. Under the brilliant requirements of autonomous driving technology, more techniques such as information acquisition feedback and intelligent control intervention are needed. Higher standards are also put forward for LiDAR systems. WiMi's 3D holographic LiDAR chip is designed and developed entirely based on industry requirements. 3D holographic LiDAR technology uses a laser beam to measure 3D holographic point locations in the surrounding space relative to the sensor for comprehensive scanning feedback. Tens of thousands of laser pulses per second can be emitted, and 3D holographic spatial data can be efficiently fed back to the vehicle's autonomous driving system, allowing the car to react to road conditions, surrounding vehicles, pedestrians, and other obstacles.
For example, the 3D Holographic LiDAR Light Source Phase Noise Compensation Chip for FMCW allows vital sign detection. The chip combines FMCW with 3D holographic LiDAR technology. FMCW can send a time-varying linear waveform that detects breathing through the chest or abdominal undulations. The thoracic undulation can be treated as a moving target, where inspiration corresponds to motion toward the LiDAR signal and breathing corresponds to moving away from the LiDAR signal. The trajectory of the respiratory movement can be obtained by decoherence with considerable accuracy. This allows us to prioritize avoiding objects with vital signs in emergencies. Conventional LiDAR can only determine the attributes of object types through object appearance recognition, such as dummies and real people on the roadside, and cannot make clear distinctions and determinations. Therefore, applying this chip will effectively improve the safety of autonomous driving.
3D holographic LiDAR can provide higher accuracy/resolution information for autonomous driving systems. Compared to high-precision camera-assisted LiDAR systems, 3D holographic LiDAR can provide longer detection distances when weather conditions are poor, giving autonomous driving an earlier prognosis and adjustment to react accordingly. When combining 3D holographic LiDAR data with positioning information, it is possible to map the vehicle's surroundings fully.
3D holographic LiDAR can obtain accurate distance and intensity information from the surrounding environment. Applying 3D Holographic LiDAR-based SLAM and Fusion Localization Chip to high-precision map construction and map-based matching positioning can effectively enhance the control effectiveness and stability of satellite positioning in weak signal areas, improve information accuracy and precision to enhance the safety and stability of autonomous driving. LiDAR is already the primary auxiliary sensor for Level 3 autonomous driving technology, and it is believed that the richer spatial and environmental information provided by 3D holographic LiDAR will become the necessary primary sensor in Level 4 and 5 autonomous driving.
What can be confirmed is that holographic technology will provide more highly sophisticated applications in the future. WiMi starts from 3D holographic LiDAR technology and empowers various industry sectors. The technology has a wide range of applications and landing prospects. Holographic technology is booming, and its application is developing in the direction of depth, gradually penetrating many fields.
WiMi Hologram Cloud Is Training An AIHolo Robot to Generate 3D Holograms.
Source
https://finance.yahoo.com/news/wimi-hologram-cloud-training-aiholo-120000019.html
May 2, 2023
WiMi Hologram Cloud Inc. (NASDAQ: WIMI), a leading global Hologram Augmented Reality ("AR") Technology provider, today announced that it is training an AIHolo robot to generate 3D holograms for users using AI from neural networks, which can go through the instructions in the training prompts and provide detailed responses. It can automatically generate multiple holograms for users based on AI understanding upon request. The AIHolo robot uses OpenAI-Photo open-source image generation to intelligently identify local items, depth of field, depth, and phase of images and then uses a complementary difference algorithm to process 3D holographic image pixels with high precision.
In the initial stage, human feedback is used to train AIHolo intensively. A human-supervised strategy is applied to prepare an initial AIHolo model. Through AI training, the engineer gives instructions and provides practice subjects. On the back end, the training engineer can access the model to write programs that help AIHolo generate holograms with the cooperation of hologram engineers.
Optimization models must then be built to create reinforcement learning optimization logic by collecting and comparing at least two or more models ranked by quality. Thus, multiple AI training engineers would instruct AIHolo to collect different comparison data, sample numerous results, and then compare and rank them manually. Proximal Policy Optimization is then considered to fine-tune the model and repeated several times to continuously iterate on the optimized model.
AIHolo may also have many problems and limitations because AI is a computer program that requires a human to do the initial model training and design the training technology framework. For example, a user who gives untrained domain and expression logic may generate results different from the user envisioned. AIHolo also needs to avoid responding to sensitive and harmful commands or generating biased 3D holograms. This requires censorship to stop such unsafe content. Of course, it is also possible that some false positives and missed critical information may come out, which requires the following collection of user feedback to help AIHolo improve and optimize the system. Users may provide unclear instructions that make AIHolo ask further questions or guess the user's intention through its understanding, which does not get the best result. Therefore, subsequent user involvement is needed to train and optimize AIHolo together and iterate continuously.
The launch of AIHolo will likely change the entire 3D holographic mapping field, potentially changing some of the ways 3D holographic mapping engineers used to work and improving the efficiency of businesses. WiMi's AIHolo will provide convenience and a variety of options for users.
WiMi Develops An Acousto-Optically Driven Ultrafast Transient Holographic Optical Imaging System.
Source
https://finance.yahoo.com/news/wimi-develops-acousto-optically-driven-120000439.html
April 28, 2023
WiMi Hologram Cloud Inc. (NASDAQ: WIMI), a leading global Hologram Augmented Reality ("AR") Technology provider, today announced that its R&D center had proposed an ultrafast transient holographic optical imaging technology that integrates STAMP, AOPDF, and DIH. This technology will optimize the existing classical scenarios in this field.
WiMi's system simplifies the imaging process with AOPDF, which allows complete control of acquisition parameters through electrically driven phase and amplitude spectral time clipping of the imaging pulse. In contrast to most current ultrafast single-shot technologies, the system enables frame rate, exposure time, and intensity to be independently adjusted over a wide range. WiMi's design is flexible and easy to use without using complex tuning effects. Also, it employs the application of DIH without any reference beam, allowing lens-free operation for higher technical simplicity, and is also used to reconstruct objects over a wide depth of field. And the imaging speed of the system and its flexibility are verified by visualizing ultrashort events on picosecond and nanosecond time scales.
The system works on a STAMP scheme that adjusts the pulse shape in the spectral and temporal domains through the interaction of an AOPDF with an electrically driven acoustic wave and enables fully independent control of exposure time and frame rate in a tilted spectral filter. This system includes a diffractive optical element, a tilted SF, and a standard camera.
WiMi's system provides ultra-high frame rates and a more flexible and convenient solution for ultrafast speed imaging systems. The system combines spectrally filtered STAMP with acousto-optic-based electronically controlled phase, amplitude, and DIH. On the one hand, the AOPDF performs the spectro-temporal phase and amplitude calibration phase effortlessly, bypassing the complex and bulky systems usually used. Thus, the system can fully customize the pulse phase and amplitude in a simple way through the interaction of the optical pulse with the acoustic wave, making synchronous and linear FM control of femtosecond pulses possible.
The use of DIH also allows for simpler systems through its lensless operation. And the technique also provides reconstruction and positioning of objects over a wide depth of field. Unlike conventional imaging techniques that provide images only in a single plane, DIH does not require reference to complex reconstruction algorithms and allows for real-time operation. In addition, the advantage of DIH over traditional imaging techniques is that it enables fast tracking of objects along a single line of sight. Then in SF-STAMP ultrafast imaging, the AOPDF pulse calibration function and DIH simplicity are utilized, and independent control of frame rate, exposure time, and frame intensity, as well as ultrafast imaging of ultrashort light, is achieved.
WiMi's system simplifies the traditional system, makes it simple and easy to use, and gradually removes the usage environment restrictions. WiMi believes that its ultrafast transient holographic optical imaging system will shine in developing physics, biology, medicine, chemistry, bionics, new materials, and quantum detection technologies.
Siyata Mobile Expands Footprint in Education Vertical with over $900,000 Order to Supply a U.S. School District with SD7 Handsets.
Source
https://finance.yahoo.com/news/siyata-mobile-expands-footprint-education-123000476.html
May 3, 2023
Siyata Mobile Inc. (Nasdaq:SYTA/SYTAW),
https://www.nasdaq.com/market-activity/stocks/syta
a global vendor of Push-to-Talk over Cellular ("PoC") devices and cellular signal booster systems, has received a purchase order for over $900,000 to supply a U.S. public school district with its mission-critical PoC (MCPTT) SD7 handsets and accessories.
Siyata CEO, Marc Seelenfreund, commented, "We are gaining momentum in the education market as this new order from a new end-customer represents our largest order to date in this important vertical. Increasingly, school districts are recognizing the critical role that robust communication tools play in supporting smooth operations and keeping students safe. Our SD7 Handsets will provide teachers and school staff with a reliable and efficient means of communicating on-the-job and the ability to notify first responders in case of an emergency."
Seelenfreund continued, "The education vertical represents one of our largest market opportunities with more than 115,000 schools
https://www.weareteachers.com/how-many-schools-are-in-the-us/#:~:text=How%20many%20schools%20are%20there,school%20for%20every%202%2C881%20people
and four million teachers
https://www.weareteachers.com/how-many-teachers-are-in-the-us/#:~:text=How%20many%20teachers%20are%20there,2.5%25%20of%20the%20working%20population
in the U.S. alone. At the same time, we are leveraging the strength of our products and expanding our reseller relationships to pursue additional sales opportunities in other verticals including first responders, government, healthcare, hospitality, and transportation and more."
The SD7 enables push-to-talk communications for first responders and enterprise clients in a simple easy-to-use rugged Android based Push-To-Talk (PTT) handset with excellent sound quality that operates over the high bandwidth 4G LTE network, providing consistent connectivity in the United States and internationally. 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, and the SD7 allows first responders as well as secondary support personnel to quickly connect and coordinate on unified public cellular networks in North America, Europe and international markets.
Users of the SD7 handset can initiate and receive talk-group calls, receive private calls, notify others of emergencies, and report locations, all actions ideally tailored for mission critical purposes.
WIMI (NASDAQ:WIMI) develops a machine-intensive reinforcement learning simulator to improve the efficiency of autonomous driving training.
Source
https://finance.sina.com.cn/tech/roll/2023-04-27/doc-imyrvfyt3148265.shtml
April 27, 2023
In recent years, self-driving car technology has made great progress with the development of technology, but how to ensure the safety of self-driving cars in various complex scenarios is still a very challenging problem. Traditional verification methods based on manual and drive tests have great limitations in terms of time and cost. The occurrence of traffic accidents, especially in extreme situations, is a key bottleneck hindering the development and deployment of autonomous vehicles. Since safety-critical events are rare, the economic and time costs required to verify their safety in natural driving environments are prohibitively high. Daunting.
According to reports, WIMI (NASDAQ: WIMI) is developing an intensive reinforcement learning technology for safety verification of self-driving cars. Fast validation and training in the emulator.
According to the data, WIMI Hologram's simulator based on machine-intensive reinforcement learning is a model-based machine-intensive reinforcement learning technology for safety verification of autonomous vehicles. The technology trains an agent in a simulator and puts it through a dense reinforcement learning algorithm for validation in a natural driving environment.
Dense reinforcement learning (DRL) is a machine learning technique that enables machine intelligence agents to learn and make optimal decisions from their interactions with the environment. In the field of self-driving cars, dense reinforcement learning is used to develop safety verification systems to ensure that self-driving cars can drive correctly in various situations. When using machine-dense reinforcement learning (DRL) for self-driving car safety verification, it is usually divided into two phases:
training and verification.
During the training phase, the DRL agent interacts with the environment and learns from it. During the validation phase, the DRL agent is tested in a simulator or in the real world to see if it can drive correctly and make optimal decisions. The safety verification of autonomous vehicles is a very complex and time-consuming process, as its safety needs to be verified in various road and traffic scenarios. Dense Simulator Reinforcement Learning is a technique for safety verification of self-driving cars using a simulator, which can greatly reduce the time and cost of verification.
It is reported that the intensive reinforcement learning technology of WIMI (NASDAQ: WIMI) adopts the model-based reinforcement learning (Model-Based Reinforcement Learning) method, which combines the idea of ??model predictive control. Specifically, we built a model in the simulator to predict the agent's actions and possible consequences in the current environment, and calculate various possibilities. We then use reinforcement learning algorithms to optimize the agent's policy to best meet goals such as safety and efficiency.
Compared with traditional reinforcement learning methods, machine-dense reinforcement learning-based simulators have higher efficiency and stability. By using the model, we can quickly generate a large amount of training data in the simulator, and can better control the environment and state in the simulator, so as to better approximate the real world situation. In addition, the method of Multi-Agent Reinforcement Learning is adopted to allow different agents to cooperate with each other in the simulator, so as to better adapt to complex autonomous vehicle scenarios. In training, we also use technical means such as Experience Replay (ER), Priority Experience Replay (PER), Dynamic Time Discount (DTD), etc. to improve the efficiency and stability of training.
At present, WIMI (NASDAQ: WIMI) is based on a machine-intensive reinforcement learning simulator. Through the process of defining the agent's goal and environment, establishing an agent model, training the agent, and using the dense simulator reinforcement learning technology for training and verification, the simulation Large-scale testing and verification in the device greatly reduces the cost and time of testing and verification in the real world, and improves the development efficiency and quality of autonomous vehicles.
The technical implementation process is as follows:
Construction of driving scene simulator:
firstly, it is necessary to build a driving scene simulator, which can simulate various road and traffic scenes. A simulator needs to include elements such as vehicles, pedestrians, roads, traffic lights, and the physics and behavioral rules associated with them.
Define the agent's goals and environment:
It is necessary to clarify the agent's goals and the environment to face. For example, an agent's goal might be to reach a destination in the shortest possible time while minimizing accidents. The environment includes roads, traffic lights, other vehicles, pedestrians, etc.
Establish an agent model:
establish an agent model, including input, output, network structure, etc. For example, the input might include information such as the agent's current speed, location, and the location and speed of surrounding vehicles; the output might be the next action the agent should take, such as accelerating, decelerating, turning, etc. When building an agent model, the working environment of the agent in the real world needs to be considered, and relevant traffic rules and safety requirements need to be followed.
Training Agents:
Agents require extensive training and experimentation in an emulator. An algorithm based on reinforcement learning can be used to improve the performance of the agent through continuous trial and error and learning. The agent needs to constantly explore new strategies and adjust its behavior according to the reward signal to maximize the long-term cumulative reward.
Dense Reinforcement Learning Simulator:
Dense reinforcement learning simulator refers to accelerating the learning and validation process of an agent by conducting a large number of training and experiments in a simulator in a short period of time. Specifically, some technologies can be used to speed up the operation of the simulator, such as parallel computing, distributed computing, and so on. At the same time, some technologies can also be used to automatically generate various road and traffic scenarios to improve the efficiency of training and verification.
Validate the agent:
After training in the simulator, the agent needs to be deployed in the real world for validation. During the verification process, some techniques can be used to speed up the verification of the agent, such as gradually relaxing the environmental restrictions, gradually increasing the complexity of the scene, artificially introducing interference, etc. If the agent performs well in the real world, the complexity of the scenario in the simulator can be further increased to verify the safety of the agent with stricter standards.
Typically, the development and deployment of autonomous vehicles requires extensive testing and validation that needs to be done in the real world, which is time- and cost-prohibitive. Through the WIMI holographic intensive reinforcement learning simulator technology, large-scale testing and verification can be carried out in the simulator, which greatly reduces the cost and time of testing and verification in the real world, and improves the development efficiency and efficiency of autonomous vehicles. quality. Secondly, self-driving cars face many complex scenarios and environments in the real world, such as weather changes, road conditions, behaviors of other vehicles and pedestrians, etc.
These complex scenarios and environments are difficult to reproduce and verify in the real world. Through the intensive simulator reinforcement learning technology in the simulator, these complex scenarios and environments can be simulated, and the performance and safety of the self-driving car can be trained and verified in the simulator, so that it can better cope with the challenges in the real world. In the verification process, the verification process can also be accelerated by gradually relaxing the environmental restrictions, gradually increasing the complexity of the scene, and artificially introducing interference. This technique could greatly reduce the time and cost of safety verification while improving the safety and reliability of autonomous vehicles.
In short, WIMI (NASDAQ: WIMI) adopts intensive reinforcement learning simulator technology, which can help the autonomous driving industry to verify and train the safety of autonomous vehicles more quickly, efficiently and accurately. This will bring more reliable and safer self-driving car products to users, and will also accelerate the development and popularization of self-driving car technology. Intensive reinforcement learning technology provides a brand-new solution for the development and verification of self-driving cars, laying a solid foundation for advancing the development and application of self-driving cars. It is believed that self-driving car safety verification technology based on intensive reinforcement learning will be An important trend and direction in the future.
Virtual Human Creates a Super Entrance to the Metaverse, WIMI.US Explores Multiple Applications of Digital Human.
Source
https://cj.sina.com.cn/articles/view/1704103183/65928d0f020035lvf?from=finance
April 27, 2023
The digital people are the first to become popular in the Metaverse, why? If the Metaverse does not have the capabilities of AI, convenient mass production, and interactive digital humans, then it cannot actually be called the Metaverse. That is just a very mature virtual simulation technology ten years ago, and it has nothing to do with the value that the metaverse can generate in the future.
In the future, the metaverse can gradually change all walks of life. It is precisely because of its intelligent production capacity that it becomes possible under the trend of intersecting scientific evolution. As one of the popular application scenarios in Metaverse, Digital Human has attracted hundreds of millions of traffic attention, government and enterprise focus, and capital pursuit. Digital people such as virtual anchors, virtual idols, and virtual employees have made frequent appearances in recent years. With their "good-looking skin" and "interesting soul", they have become cutting-edge topics in the field of science and technology.
Technology driven revolution
Therefore, based on rapid production capabilities, such as the generation of AI-based digital humans, it is possible to generate 70% similarity in 40 seconds, and it is possible to apply it in various business scenarios, thus enabling metaverse applications in office, industry, and social interaction become possible.
Further analysis shows that ChatGPT has become so popular recently, it can be said that it is absolutely explosive! In the few months since ChatGPT was launched, the number of active users has increased continuously, and even some related concept stocks have followed suit.
The strong rise of ChatGPT has brought "intelligent evolution" to virtual digital humans. Virtual digital humans featuring high intelligence, self-learning ability, and high efficiency will be applied in more scenarios and fields.
Virtual Human Classification
At present, there are many ways to classify virtual humans:
the first type is classified according to technology, and virtual humans can be divided into algorithm-driven (AI real-time or face pinching, etc.) and real-life-driven (motion capture); People can be divided into 2D and 3D types.
The third type is classified according to the structure and composition, and virtual humans can be divided into digital type (users watch online) and holographic type (users watch with naked eyes on site); the fourth type is classified according to business model, virtual humans can be divided into IP type (KOL type, Song and dance type, brand type, idol type launched by entertainment companies, star clone type) and non-IP type (functional type, academic type and identity type).
Virtual digital human has strong plasticity in product design. Combined with cutting-edge technologies such as AR and artificial intelligence technology, it can enable new formats such as virtual anchors to bring goods to meet the diverse needs of users, generate huge market opportunities, and promote the high-speed development of the digital human industry. develop.
When iiMedia Consulting analyzed the market size of the digital human industry, it calculated the market size driven by digital human beings and the market size of the core industry of digital human beings. According to its statistics, the market size of the surrounding market driven by virtual human beings will be 186.61 billion yuan in 2022, and it is expected to be 640.27 billion yuan in 2025. billion.
iiMedia Consulting analysts believe that virtual digital humans have strong plasticity in terms of content and peripheral product output, and can continuously develop new explosive points according to the development of the trend of the times. will maintain a steady growth trend.
WIMI Holographic "Digital Human +" empowers commercial applications to blossom
At this stage, the digital human industry is in the initial stage of growth, and the growth rate of the industry is relatively fast. Against the background of the rapid development of the digital human industry, following the development trend, WIMI Hologram (WIMI.US) is well versed in the operation and realization of virtual human, focusing on the "digital human" +" track, using AI interaction, real-time motion capture, VR/AR and other technologies to create a digital human comprehensive operation plan, active in all aspects of corporate branding, marketing and consumer services, providing strong support for promoting the digital transformation and upgrading of the digital human industry .
Specifically, the application of WIMI holographic virtual digital humans in various industries will empower traditional industries and promote the development of the real economy in a new digital form. For example, it has outstanding performance in the virtual human + cultural tourism industry, and the application of virtual characters represented by virtual commentators may contribute vigorously to it. As a virtual anchor, WIMI holographic digital human breaks the time and space constraints through online live broadcasting and other methods, leads the audience to travel online, watch cultural and creative products, realizes the promotion and production of innovative content for the cultural industry in a digital way, and presents culture in multiple dimensions charm.
On the one hand, WIMI’s holographic virtual human has become an important engine for the transformation and upgrading of the cultural tourism industry. On the other hand, it actively promotes the joint development of digital human and new models such as smart tourism and virtual tourism. It is worth noting that in the future, as the number of entering enterprises increases, the development of virtual digital technology needs continuous innovation.
However, WIMI has been locked in advance, relying on full-stack technical capabilities, researching data-driven virtual digital human construction technology, collecting and processing the action data of real people, generating action data sets, and using machine learning algorithms Model training and optimization to generate a highly realistic virtual digital human model. And the action data of the real human body is applied to the virtual digital human model, so that it can show various actions of the real human body, so that the digital human has a more realistic appearance and performance ability.
It can be said that digital humans are an important interactive carrier under the Metaverse system. Currently, the business models of virtual idols, service types, and social types of digital humans are gradually becoming clear, involving content creation, live broadcast interaction, advertising endorsement, e-commerce sales, etc. multiple fields. The acceptance of WIMI's digital human scene is increasing, and it is expected to usher in an explosive period at the commercial level.
epilogue
The business form of virtual digital human relies on multiple technologies, including computer vision, speech synthesis, and multi-modal interaction technologies. Whether it is AI modeling or driving technology, digital human will become an infrastructure technology within the next three years, and it will become a technology that can be used in various industries such as cultural tourism, industry, and education. All in all, digital human is a master of various cutting-edge technologies, and will be the super entrance of WEB3.0 and metaverse. Digital human will become a new productive force for shaping competitive advantages in various industries, integrating virtual and real, and empowering entities.
ImagineAR Discusses $535,000 In Booked Augmented Reality Contracts Year to Date, 3-Year MOU For Global Icons & Other Matters In Corporate Update.
Source
https://finance.yahoo.com/news/imaginear-discusses-535-000-booked-210000118.html
May 1, 2023
Imagine AR Inc. (CSE: IP) (OTCQB: IPNFF) an Augmented Reality Company that enables sports team, businesses, and organizations to dynamically create mobile phone AR campaigns without a technical background, is pleased to provide investors with the following spring corporate update.
CONTRACTS TOTALING $535,000 BOOKED YEAR TO DATE
The Company is pleased to announce that it continues to commercialize its leading Augmented Reality solutions with $535,000 in contracts booked to date for this fiscal year.
In addition to these booked contracts, the Company recently announced this MOU:
MOU WITH GLOBAL DIGITAL PUBLISHING COMPANY FOR MINIMUM OF 10 LICENSES IN 2023 TO GLOBAL ICONS
On March 1, we announced a Memorandum of Understanding ("MOU") with a global digital publishing company to purchase a minimum of 10 and a maximum of 25 three-year SDK mobile app licenses in 2023.
Once the formal contract is signed, the SDK licenses are expected to generate revenue in the range of $200,000 CDN - $414,000 CDN per year for three years.
The mobile app licenses are intended to power top icons in sports, music, entertainment, and gaming, which the Company believes will generate additional attention for its augmented reality technology from global users.
EXISTING CLIENTS ADDING NEW IMMERSIVE ENGAGEMENTS
Over the past year ImagineAR has announced agreements with renown clients such as the Baltimore Ravens, Jet Media, HipHopHall of Fame, and Learfield/SideARM Sports. The Company is pleased to advise we are in discussions to develop additional immersive engagements as a result of the technical proficiency of our Augmented Reality solutions.
Company President and CEO Alen Paul Silverrstieen stated "Despite the deeply challenging capital markets environment for small cap companies, we continue to execute very well on the one thing we can control - our world class augmented reality technology. Our booked contracts in this fiscal year, as well as the pending deals above, is reinforces our belief that we have the right solution to meet the paradigm shift of augmented reality."
Silverrstieen continued "In order to make sure we maintain the resources necessary to continue delivering this success we have significantly reduced expenses and are actively engaged in financing discussions with strategic investors that have already yielded commitments above our current share price. Moreover, with some strategic money in place, we are considering providing our shareholders with an opportunity to participate through the new financing exemption that provides them with free trading shares and warrants to participate in our growth. This has previously not been available to non-accredited investors."
The Company has filed its audited 2023 financial statements and MD&A for the period ending February 28, 2023, on SEDAR.
The Company would like to announce that M. Coffin has resigned as a Board of Director. The Company would like to thank him for his years of dedication as an officer and wishes him well in his future endeavors. ImagineAR's Board plans to fill the vacated seat within the coming months.
This news release does not constitute an offer to sell or a solicitation of an offer to buy any of the securities in the United States. The securities have not been and will not be registered under the United States Securities Act of 1933, as amended (the "U.S. Securities Act") or any state securities laws and may not be offered or sold within the United States or to U.S. Persons unless registered under the U.S. Securities Act and applicable state securities laws or an exemption from such registration is available.
This News Release is available on the company's official Verified Discussion Forum On AGORACOM,
https://agoracom.com/ir/Imaginear/forums/discussion
a moderated social media platform that enables discussion and Q&A between Management and Shareholders.
WiMi Hologram Cloud to Build A 3D Point Cloud-Based Holographic Digital Twin Cloud Platform.
Source
https://finance.yahoo.com/news/wimi-hologram-cloud-build-3d-120000308.html?guccounter=1
April 24, 2023
WiMi Hologram Cloud Inc. (NASDAQ: WIMI), a leading global Hologram Augmented Reality ("AR") Technology provider, today announced that it is building a holographic digital twin cloud platform based on 3D point cloud technology to reconstruct the "people, objects and fields" of the physical world in the metaverse. Compared with traditional 3D models, 3D point cloud technology is not constrained by artificial modeling surface equations and surface continuity and can restore any complex 3D geometry with high precision and convenience, presenting finer details and sharper edges.
Compared with 2D images, 3D point cloud data will have one more dimension of information (depth information). And objects are naturally decoupled from the background. Based on the rich data provided by the point cloud with more sizes, the integration of intelligent technology for mining and understanding can help technicians capture the natural and subtle changes of people, objects, and scenes more acutely, extract key data, learn the inner knowledge logic, and realize the perception and understanding of complex scenes. 3D point cloud-based reconstruction can quickly build a highly realistic 3D model directly from discrete points on the surface of objects or spatial scenes, significantly reducing the threshold of 3D content creation and improving modeling accuracy and speed.
3D point cloud technology may encounter problems of sparsity, disorder, and geometric transformation in processing. Deep learning also faces significant challenges, such as data set size, high dimensionality, and the unstructured nature of 3D point clouds. WiMi's R&D team has also done a lot of research in this area, including 3D shape classification for 3D point cloud processing, 3D object detection and tracking, 3D point cloud segmentation, 3D point cloud registration, and degree of freedom pose estimation and 3D reconstruction.
The 3D point cloud retains the original geometric information in 3D space without discretization. Therefore, it is the preferred choice for many applications related to scene understanding, such as autonomous driving and robotics. 3D point cloud technology offers advantages that conventional measurement techniques do not. From space to the earth's surface, global mapping to urban planning, scientific research to public service, object modeling to building structure reconstruction, 3D point cloud technology has made a splash in many significant projects and essential fields. With the support of 3D point cloud technology, WiMi's holographic digital twin cloud platform will be able to provide services to users in more areas.
In the future, with the rapid development of software and hardware technologies such as spatial sensors, the accuracy and convenience of point cloud data will continue to improve, and the efficiency of replicating the real world will be significantly enhanced. This will also give rise to more practical and innovative applications and cases. With the support of IoT, digital twin, AI, and other technologies, the 3D point cloud will be the key underlying technology for the creation of the metaverse, which will push the Internet form to gradually evolve into a virtual space parallel to the real world and eventually create a brand new era.
WiMi Developed DCNN AI Technology Based on N-dimensional Manifold Holographic Technology.
Source
https://finance.yahoo.com/news/wimi-developed-dcnn-ai-technology-120000615.html
April 19, 2023
WiMi Hologram Cloud Inc. (NASDAQ: WIMI), a leading global Hologram Augmented Reality ("AR") Technology provider, today announced that its R&D team had developed a method for creating realistic 3D holographic digital content using deep convolutional neural network AI models based on N-Dimensional Manifold algorithmic holographic technology.
The main difficulty and challenge in producing holographic digital content is the amount of data in holographic digital content. Each holographic digital content contains a large amount of data. These data include a full range of 360-degree digital information such as depth of field and dimension of the holographic digital content. The production of holographic digital content requires a large amount of computing power. Previously, the industry usually used distributed algorithms for computational processing, which required many advanced computers.
Therefore, the first holographic digital content was done in-house or in professional holographic digital content research labs, and its natural production is rather costly. The high cost of holographic content and display made it unavailable for ordinary people. However, with the development of AI technology, researchers at the WiMi R&D Center were able to develop DCNN AI technology for solving problems based on N-dimensional manifold holographic technology. This AI-driven model is the best way to generate holographic content from a series of input images.
Traditional holographic content production methods create many holographic blocks and then use specific algorithmic models to synthesize these holographic blocks into a complete hologram, similar to a photo that is not large enough to be stitched together with multiple images. Therefore, each time the production of holographic digital content requires a lot of time and effort, and the requirements for computer graphics processing capabilities are incredibly high.
WiMi's technology is different from traditional holographic digital content processing. It uses DCNN AI technology to intelligently discriminate images and identify N-dimensional information, such as objects, depth of field, phase, etc., in digital photos, and then process 3D holographic images pixel-wise and with high precision through complementary difference algorithm control. DCNN AI can replace computer peripherals such as manual or multi-camera LIDAR sensors, significantly reducing image blocks that need to be processed. It can analyze images and categorize them into groups by CNN, considerably reducing the reliance on computer image processing power.
In this case, holographic digital content can be processed and generated using ordinary computers or mobile devices like cell phones and tablets. Combined with WiMi's holographic digital content compression processing system, the intelligent algorithm removes coding redundancy, temporal redundancy, spatial redundancy, and irrelevant information desensitization to compress the data volume of holographic content and achieve a lightweight layout of holographic digital content, which is more conducive to the dissemination of holographic content.
WiMi is training this AI model and has yet to test it publicly. This will likely be a disruptive technology application. As this technology further matures, it is likely to revolutionize how people watch and produce video, as well as the experience of social interaction.
WIMI develops wearable EEG electronic equipment for brain-AI closed-loop system.
Source
https://t.cj.sina.com.cn/articles/view/1765776051/693f9ab30200114c6?from=tech
April 15, 2023
It is reported that WIMI is developing a wearable EEG electronic device for the brain-AI closed-loop system, which can enhance autonomous machine decision-making. The device monitors an electroencephalogram (EEG) of human brain activity and transmits this data to a computer system connected to it. The device uses electroencephalography (EEG) technology, which captures the electrical activity of the brain by attaching electrodes to the scalp. These signals can reflect the state of human perception, including the degree of brain activation, frequency and time domain characteristics, etc. These signals are very weak, generally at the level of microvolts to millivolts.
Therefore, high-sensitivity electrodes and signal enhancement equipment such as amplifiers are required in the signal collection process to ensure accurate signal collection and reliable transmission. After the data acquisition is completed, the device needs to transmit the data to an external computer system for analysis and processing. Therefore, the device is equipped with a communication module that uses wireless technology for data transmission, which allows real-time data transmission and processing. At the same time, signal interference and distortion during transmission can be avoided.
WIMI's wearable EEG electronic device for brain-AI closed-loop system is a complex system integrating sensors, high-sensitivity electrodes, signal enhancement and processors, communication modules, etc., which can capture the brain's electrical activity signals and transmit it to an external computer system for analytical processing. Accurate signal acquisition and real-time data transmission and processing can be achieved, thus providing a reliable data source and decision support for the brain-AI closed-loop system. Wearing comfort and portability were also important considerations in the design of the device. Since the device is worn for extended periods of time, it must be comfortable to wear. At the same time, in order to facilitate portability and use, the device uses lightweight materials and a flexible design that can adapt to the shape of the head, thereby ensuring wearing comfort and stability.
Through the wearable EEG electronic device used by WIMI for the brain-AI closed-loop system, we can realize two-way communication from the human brain to the computer system to realize autonomous machine decision-making. An example of such a system is a brain-machine interface (BMI), which allows people to control external devices such as computer games, artificial limbs, etc. through purely mental activities. In a closed-loop system, the EEG device detects changes in brain activity and transmits this information to a computer system. Computer systems may analyze this data to determine whether certain actions are warranted or to be taken. For example, if the system detects that the user's brain activity indicates that they are experiencing cognitive overload, the system can automatically adjust the difficulty of the task or provide appropriate prompts to help the user complete the task.
The technology to realize the brain-AI closed-loop system requires the following steps and components:
Wearable EEG device:
This device can monitor brain activity through sensors and electrodes, and transmit the signal to a computer system.
Data acquisition and processing:
Process and analyze the signals collected from EEG equipment, such as removing noise, screening useful signals and extracting features. These operations can be done using some data processing tools and algorithms, such as filtering, time-frequency analysis, machine learning and other techniques.
Human brain activity decoding:
Decode the signals collected from EEG equipment into specific human brain activities, such as cognition, emotion, movement, etc. This requires the use of some human brain activity decoding algorithms, such as classifiers, neural networks and other technologies.
AI algorithms and models:
use decoded human brain activity data to train and optimize machine learning models and algorithms. These models and algorithms can be used to analyze human brain activity, predict user intentions, emotions, and needs, and make decisions and adjust tasks autonomously.
Autonomous machine decision-making:
By combining human brain activity decoding with AI algorithms, autonomous machine decision-making is realized. For example, the system could automatically adjust the difficulty of tasks or provide hints when a user's brain activity indicates they need help. These decisions can be made in a closed-loop system, enabling real-time interaction between humans and machines.
With the rapid development of AI technology, artificial intelligence plays an increasingly important role in various fields. However, the existing AI systems can have amazing performance in the feeding of large amounts of data and system algorithms, but they often cannot accurately capture human emotions and intentions, which limits the scope of application of AI technology. The wearable EEG electronic device used in the brain-AI closed-loop system by WIMI can measure the electrical activity signals of the brain, and through these signals, we can accurately capture human emotions and intentions. A closed loop is established between the AI ??system and humans. Through the data collected by the device, the AI ??system can make more intelligent decisions based on human emotions and intentions. Through wireless communication technology, it can communicate with the AI ??system in real time to achieve fast data transmission and response. In addition, the device can also detect the emotional state of human beings by monitoring the electrical signals of the brain, so as to adjust the working state of the AI ????system in time to better adapt to human needs.
WIMI (NASDAQ: WIMI) has a very broad market prospect and application space for wearable EEG electronic devices used in brain-AI closed-loop systems. It will promote more intelligent interactions between humans and machines, enhance autonomous machine decision-making, enhance the intelligence level of AI systems, and improve user experience and efficiency. At the same time, the device also has strong adaptability and comfort, and can be used more and more widely in fields such as medical treatment, entertainment, games, human-computer interaction, and robotics.
WiMi to Develop HoloBrick Unit Display System for Powerful Holographic 3D Display.
Source
https://finance.yahoo.com/news/wimi-develop-holobrick-unit-display-120000921.html
April 17, 2023
WiMi Hologram Cloud Inc. (NASDAQ: WIMI), a leading global Hologram Augmented Reality ("AR") Technology provider, today announced that it is developing a HoloBrick unit display system. The unit is based on coarse integrated holographic displays for corner-tiled 3D images stitched together to form a giant, seamless 3D image. Each holographic brick uses a high information bandwidth spatial light modulation device to transmit information and coarse integrated optics to create a large viewing angle and field of view angled tiled 3D hologram.
The system allows seamless spatial tiling of multiple CIH displays. The HoloBrick is an independent CIH module containing a spatial light modulator, scanner, and periscope coarse integration optics. The periscope coarse integral optics are created to prevent the optical system from being more significant than the holographic image and allow the holographic stripe pattern to fill the entire surface of the HoloBrick. As a result, multiple HoloBricks can be seamlessly connected to form a scalable spatially tiled hologram display capable of both a wide field of view and an arbitrarily large size area. The optical design enables each of the resulting holograms to fuse the displayed 3D images in space when seamlessly stitched together.
Diffractive optics causes the holographic effect. Its scattering angle depends on its wavelength and the size of the diffracted material. The 3D effect can be rendered by moving the object slightly, but the object cannot be seen if the angle is too large. The CIH module can solve this problem by adjusting each angle in space to about two degrees for spatial stitching, thus obtaining a spatial field of view of 30-40 degrees or more. The modular CIH in the system uses coarse pitch and small area but high bandwidth SLMs combined with periscope coarse integration optics to form angularly tiled stereoscopic 3D holograms with large fields of view and field of view.
WiMi will continue to develop the ultimate display technology that connects the real world with the virtual world, reconstructing high-quality images for an immersive experience.
WiMi Hologram Cloud Full Year 2022 Earnings: CN¥4.13 loss per share (vs CN¥2.83 loss in FY 2021).
Source
https://finance.yahoo.com/news/wimi-hologram-cloud-full-2022-124301999.html
April 15, 2023
WiMi Hologram Cloud (NASDAQ:WIMI) Full Year 2022 Results
Key Financial Results
- Revenue: CN¥682.3m (down 27% from FY 2021).
- Net loss: CN¥357.7m (loss widened by 52% from FY 2021).
- CN¥4.13 loss per share (further deteriorated from CN¥2.83 loss in FY 2021).
PRINCIPAL SUBSIDIARIES AND VIE OF WiMi Hologram Cloud Inc
Entity Jurisdiction Ownership
WiMi Hologram Cloud Inc. Cayman Islands -
WiMi Hologram Cloud Limited Hong Kong 100%
Beijing Hologram WiMi Cloud Network Technology Co., Ltd. (“WFOE”) People’s Republic of China 100%
Beijing WiMi Cloud Software Co., Ltd. (Beijing WiMi) People’s Republic of China Variable Interest Entity
Shenzhen Yidian Network Technology Co., Ltd. (“Shenzhen Yidian”) People’s Republic of China 100% owned by Beijing WiMi
Shenzhen Duodian Cloud Technology Co., Ltd. (“Shenzhen Duodian”) People’s Republic of China 100% owned by Shenzhen Yidian
Korgas Duodian Network Technology Co., Ltd. (“Korgas Duodian”) People’s Republic of China 100% owned by Shenzhen Yidian
Kashi Duodian Network Technology Co., Ltd. (“Kashi Duodian”) People’s Republic of China 100% owned by Shenzhen Yidian
Shenzhen Zhiyun Image Technology Co., Ltd. (“Shenzhen Zhiyun”) People’s Republic of China 100% owned by Shenzhen Yidian
Shenzhen Shiyunyanxi Technology Co., Ltd. (“Shenzhen Shiyun”) People’s Republic of China 100% owned by Shenzhen Yidian
Shenzhen Yunzhan Image Technology Co., Ltd. (“Shenzhen Yunzhan”) People’s Republic of China 100% owned by Shenzhen Yidian
Dongguan Xinhongcheng Technology Co., Ltd. (“Dongguan Xinhongcheng”) People’s Republic of China 100% owned by Shenzhen Duodian
Entity Jurisdiction Ownership
Micro Beauty Lightspeed Investment Management HK Limited (“Micro Beauty”) Hong Kong 100% owned by Beijing WiMi
Skystar Development Co., Ltd (“Skystar”) Republic of Seychelles 100% owned by Micro Beauty
Viru Technology Limited (“Viru”) Hong Kong 55% owned by Wimi HK
Shenzhen Weiruntong Technology Co., Ltd. (“Shenzhen Weiruntong”) People’s Republic of China 100% owned by Viru
VIDA Semicon Co., Limited (“VIDA”) Hong Kong 53% owned by WiMi HK
Weeto Investment PTE. Ltd (“Weeto”) Singapore 100% owned by Wimi Cayman
Lixin Technology Co., Ltd. (“Lixin Technology”) People’s Republic of China 100% owned by WiMi Cayman
Hainan Lixin Technology Co., Ltd. (“Hainan Lixin”) People’s Republic of China 100% owned by Lixin Technology
Tianjin Zhongzhengdaohe Investment Co., Ltd. (“TJ Zhongzheng”) People’s Republic of China 100% owned by WiMi Cayman
Shenzhen Hedaozhongshu Technology Co., Ltd. (“Shenzhen Hedao”) People’s Republic of China 100% owned by TJ Zhongzheng
Kashi Daohezhongzheng Internet Technology Co., Ltd. (“Kashi Daohe”) People’s Republic of China 100% owned by Shenzhen Hedao
MicoAlgo Inc. Cayman Islands 65.92% owned by Wimi Cayman
VIYI Algorithm Inc. (“VIYI”), previously known as VIYI Technology Inc. Cayman Islands 86.5% owned by WiMi Cayman before March 26, 2021; 73% owned by WiMi Cayman after March 26, 2021; 100% owned by MicroAlgo after December 9, 2022
Entity Jurisdiction Ownership
Fe-da Electronics Company Private Limited (“Fe-da Electronics”) Singapore 100% owned by VIYI, Acquired in September 2020
Wisdom Lab Inc. (“Wisdom Lab”) Cayman Islands 100% owned by Fe-Da Electronics
Excel Crest Limited (“Excel Crest”) Hong Kong 100% owned by Fe-da Electronics
VIYI Technology Ltd. (“VIYI Ltd”) Hong Kong 100% owned by VIYI
Shenzhen Weiyixin Technology Co., Ltd. (“Shenzhen Weiyixin”) People’s Republic of China 100% owned by VIYI Ltd
Shanghai Weimu Technology Co., Ltd. (“Shanghai Weimu”) People’s Republic of China 58% owned by VIYI Ltd
Weidong Technology Co., Ltd. (“Weidong”) People’s Republic of China 100% owned by Shenzhen Yitian
Shanghai Guoyu Information Technology Co., Ltd. (“Shanghai Guoyu”) People’s Republic of China 99% owned by Weidong, 1% owned by YY Online
Kashi Guoyu Information Technology Co., Ltd. (“Kashi Guoyu”) People’s Republic of China 100% owned by Shanghai Guoyu
Korgas Weidong Technology Co., Ltd. (“Korgas Weidong”) People’s Republic of China 100% owned by Weidong
Korgas 233 Technology Co., Ltd. (“Korgas 233”) People’s Republic of China 100% owned by Shenzhen Yitian
Shenzhen Yiyou Online Technology Co., Ltd. (“YY Online”) People’s Republic of China 100% owned by Shenzhen Yitian
Entity Jurisdiction Ownership
Wuhan 233 Interactive Entertainment Technology Co., Ltd. (“Wuhan 233”) People’s Republic of China 100% owned by Shenzhen Yitian
Shenzhen Yitian Internet Technology Co., Ltd. (“Shenzhen Yitian”) People’s Republic of China 100% owned by Beijing WiMi before December 24, 2020; VIE of Shenzhen Weiyixin starting on December 24, 2020; 100% owned by Shenzhen Weiyixin starting April 1, 2022
Shenzhen Qianhai Wangxin Technology Co., Ltd. (“Shenzhen Qianhai”) People’s Republic of China 100% owned by Shenzhen Yitian
Viwo Technology Limited. (“Viwo Tech”) Hong Kong 55% owned by VIYI Ltd.
Shenzhen Viwotong Technology Co., Ltd. (“Viwotong Tech”) People’s Republic of China 100% owned by Viwo Tech
Guangzhou Tapuyu Internet Technology Co., Ltd. (“Tapuyu”) People’s Republic of China 100% owned by Viwotong Tech
Guangzhou Bimai Network Technology Co., Ltd. (“Bimai”) People’s Republic of China 100% owned by Viwotong Tech Acquired in September 2022
ViZe Technology Co., Ltd. (“ViZe”) Hong Kong 55% owned by VIYI Ltd.
Shenzhen ViZeTong Technology Co., Ltd. (“ViZeTong”) People’s Republic of China 100% owned by ViZe
FORM20-F
Source
https://www.sec.gov/ix?doc=/Archives/edgar/data/1770088/000121390023029538/f20f2023_wimiholo.htm
April 13, 2023
Please read the FULL REPORT at:
https://www.sec.gov/ix?doc=/Archives/edgar/data/1770088/000121390023029538/f20f2023_wimiholo.htm
WIMI launches real-time network holographic microscope interaction technology, which can be widely used in education and scientific research.
Source
https://t.cj.sina.com.cn/articles/view/1765776051/693f9ab30200113mp?from=tech
April 12, 2023
It is reported that WIMI (NASDAQ: WIMI) has launched a real-time network holographic microscope technology, which can significantly improve the resolution along the optical axis (horizontal and axial resolutions: 0.4µµm and 0.8µµm respectively). LEDs, each with a different color (RGB), hit the sample from three different directions. Each channel of the camera records an independent hologram created by the interference between incoming light and light scattered by an object. These three holographic digital images are transferred to a GPU algorithm to compute three corresponding volumetric reconstructions. Each of the signals currently in the reconstruction suffers from poor axial resolution, but their overlapping returns a volumetric image whose isosurface profile closely approximates the surface of simple microscopic objects.
According to the data, WIMI WIMI holographic real-time network holographic microscope technology supports user interaction through virtual reality devices, and can use gestures (that is, "grab") or more complex remote control interaction methods to achieve independent creation, destruction, selection and movement. When the engine detects an event related to the creation, destruction, or displacement of a snap, data describing the updated snap configuration is sent to the "holographic engine" over a network connection. The holographic engine runs on a computer that controls the optical hardware in a separate lab.
When an update request is received from the "VR Engine", the Holographic Engine computes an optimized digital hologram on the GPU and displays it directly on the SLM. A collimated infrared laser beam is reflected from the SLM and acquires a phase modulation such that the resulting diffraction-limited spot has the same spatial arrangement as its virtual counterpart after propagating through the microscope objective. Each of these spots acts as an optical trap, which can be used to grasp and manipulate small dielectric objects. Typically, capture rearrangements will result in rapid motion of nearby objects, captured in a holographic image and processed in real-time by a "holographic engine". The obtained volumetric reconstructions are segmented to extract relevant geometric features of all identified objects. This geometric data is sent back to a "VR engine" to update the object's geometric parameters, providing a virtual representation of the real object interactively manipulated under the microscope, as shown here.
The SLM will be refreshed at a rate of 60 Hz, and the minimum delay time corresponding to the holographic image display is 17 milliseconds, which can ensure a smooth interactive operation experience. Simultaneously displayed phase modulation on the SLM to generate an optical capture at the position indicated by the 3D arrangement of the virtual handle, showing the original hologram recorded on the three color channels of the camera before being numerically reconstructed, tracked and rendered on the VR headset picture. Using a virtual hand to grasp objects and arrange them into 3D holographic configurations that can be inspected immersively and in real time, and allow direct manipulation through gestures and real-time immersive feedback. Microassembly tasks can be greatly simplified, especially for users with no previous microscope and capture experience.
WIMI (NASDAQ: WIMI) real-time network holographic microscope interaction technology. A series of tools are also implemented to track objects and observe the temporal evolution of their coordinates on a display. Using holographic optical tweezers capable of dynamically aligning multiple snaps in 3D, we can precisely arrange multiple colloidal particles or living cells in controlled spatial configurations to study their random behavior under reproducible initial conditions, or their Biological interactions during growth, grasping and rotation of microfabricated objects with complex shapes can also be used as tools for advanced microscopy applications. In this regard, virtual reality interfaces can simplify and accelerate the assembly of multicomponent microsystems and allow direct manipulation through gestures and real-time immersive feedback.
Holographically imaging objects as large as the wavelength of light, like bacteria, is quite a challenging task. Volumetric reconstruction represents the convolution of the actual object shape by a point spread function, which approximates a 3D Gaussian and leads to blurring of the final 3D image (especially along the vertical axis). WIMI WIMI holographic real-time network holographic microscopy technology has a reliable prior information about the shape, and infers the geometric parameters of these shapes through volume reconstruction, using the volume image reconstructed by the marching cube algorithm, which is executed on the "holographic engine" GPU, The output polygonal mesh, whose vertices and triangles are sent over the internet to a "VR engine" for real-time rendering.
WIMI's (NASDAQ: WIMI) real-time network holographic microscope interaction technology presents a powerful interface through virtual reality to merge 3D microscopy and holographic technology for micromanipulation. Provides an immersive interactive experience of microscopic phenomena. We can enter laboratories on a chip, walk on microscope slides, observe dynamic phenomena happening around us in real time, and use virtual hands to grasp, move and construct 3D spatial arrangements of microscopic objects and living cells. This approach can be extended in many different directions. All of this holographically interactive digital information can be used to explain to students, and to conduct experiments and observe the microscopic world in the first person, providing a unique and powerful experience of the physical laws governing the microscopic world populated by cells and colloidal particles.
FORM 12b-25
Source
https://www.sec.gov/Archives/edgar/data/1649009/000121390023033037/ea177456-nt20f_siyatamobile.htm
April 27, 2023
Please read the FULL REPORT at:
https://www.sec.gov/Archives/edgar/data/1649009/000121390023033037/ea177456-nt20f_siyatamobile.htm