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CloudMD Reports 2022 Results for the Full Year and Fourth Quarter.
Source
https://finance.yahoo.com/news/cloudmd-reports-2022-results-full-105800036.html?guccounter=1
April 25, 2023
- Full year 2022 revenue of $114.5 million compared to $70.1 million in 2021
- Q4 2022 revenue of $25.9 million compared to $28.1 million in Q4 2021
- Q4 2022 gross profit margin of 34.8%, 30bps improvement from the previous quarter
- Q4 2022 Adjusted EBITDA1 loss of $2.6 million, $0.5 million improvement from the previous quarter. Net loss of $13.0 million in Q4 2022.
- Cash and cash equivalents of $24.1 million at the end of 2022
- Multi-year contract signings of $12.2 million in annual recurring revenue in 2022
- Additional cost reductions of $5.0m annualized were actioned in Q4 2022
Please read the FULL REPORT at:
https://finance.yahoo.com/news/cloudmd-reports-2022-results-full-105800036.html?guccounter=1
Siyata Mobile Expands Reseller Network for SD7 with Addition of Leading US Distributor Serving the Two-Way Radio Market.
Source
https://finance.yahoo.com/news/siyata-mobile-expands-reseller-network-123000728.html
April 24, 2023
Siyata Mobile Inc. (Nasdaq:SYTA/SYTAW)), a global vendor of Push-to-Talk over Cellular ("PoC") devices and cellular signal booster systems, announces Two Way Direct, Inc., a reseller of two-way radios and push-to-talk over cellular, is now a distributor of Siyata's mission-critical PoC (MCPTT) SD7 solution and its broad range of accessories.
Siyata CEO, Marc Seelenfreund, commented, "Two Way Direct is a leader in professional radio communication solutions for business and government making it a strategic fit for distribution of our products and solutions. With its broad, national distribution, Two Way Direct provides us with an entrée into the more traditional two-way radio market and expands the reach of our brand. They understand the benefits of push-to-talk over cellular and as a premier, wide-area, unlimited airtime, PoC communications provider they have the largest coverage area in the world. It is exciting to see two-way radio resellers like Two Way Direct promoting next-generation PTT."
Two Way Direct's CEO, Brandon Ocampo, commented, "We're excited to partner with Siyata to deliver the best push-to-talk solution on the market.
https://www.twowaydirect.com/twd-sd7-push-to-talk-over-cellular-radio/
With no upfront cost and a low monthly fee, you'll receive the benefits of Siyata's rugged handset combined with the power of our worldwide connectivity and embedded Two Way Direct push-to-talk application. Coverage is king, which is why we leverage nearly every carrier in the world to deliver the ultimate coverage experience. Our PTT app instantly connects your team in one platform across two-way radios, smartphones, and web dispatchers. It's PTT with no boundaries."
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 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.
About Two Way Direct
Two Way Direct is a leader in professional two-way radio communication solutions for business and government. Bridging the gap between traditional radio communication systems and push-to-talk over cellular, Two Way Direct connects your team in one platform across different devices, networks, and locations. They are the premier, wide-area, unlimited airtime, two-way radio push-to-talk communications provider with the largest coverage area in the world.
To learn more please visit:
https://www.twowaydirect.com/push-to-talk-over-cellular/
Contact:
Sandra Abarca, Director of Marketing
Two Way Direct, Inc.
sandra@twowaydirect.com
CloudMD Expands Partnership with Benefits Alliance to Include Full Suite of Kii Services.
Source
https://finance.yahoo.com/news/cloudmd-expands-partnership-benefits-alliance-103000643.html
April 12, 2023
CloudMD Software & Services Inc. (TSXV: DOC, OTCQX: DOCRF, Frankfurt: 6PH), an innovative health services company transforming the delivery of care, is pleased to announce that it has expanded its partnership with Benefits Alliance to cover all Kii services including EFAP, iCBT, Mental Health Coaching, Medical Second Opinion and Telemedicine. The expanded partnership allows over 8,000 employee benefit plans across Canada to have access to Kii.
“This multi-product partnership with Benefits Alliance is an example of the transition we are making from a provider of standalone services to one focused on multi-product, whole person care. The partnership’s expansion comes from a successful 3-year partnership,” said Karen Adams, CEO of CloudMD. “We’ve repeatedly proven to clients that partnering with an integrated healthcare provider leads to better health outcomes. I’m thrilled that thousands of employee benefits plans will have the option of adding the full suite of Kii services for their employees.”
“CloudMD’s services coordinated through their innovative nurse navigation is a powerful combination that is truly unique and forward-thinking in the industry. Being able to offer these valuable and relevant services through one integrated offering is a huge value driver for our advisors and their clients’ employee benefits plans,” said Carolyne Eagan, President of Benefits Alliance. “In a world where plan members have a variety of complex needs, our advisors and plan sponsors appreciate such a member-centric option. We look forward to growing our relationship and success together with CloudMD.”
CloudMD’s full Kii platform will be rolled out to Benefit Alliance advisors at their semi-annual national spring conference on April 14, 2023.
Benefits Alliance is a national organization consisting of independent member firms. Benefits Alliance advisors manage over 8,000 employee benefits plans, with over $1.4 billion of group insurance premiums as well as of 1,500 group retirement plans that have over $3.5 billion in plan assets.
WiMi Creates 3D Digital Modeling Design System for Virtual Imaging.
Source
https://finance.yahoo.com/news/wimi-creates-3d-digital-modeling-120000581.html?guccounter=1
April 1, 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 model building design system for 3D digital virtual imaging modeling. The system can be applied to the digital twin cloud platform to provide higher precision digital building services for smart cities, industries, and other fields.
WiMi's system uses a point cloud modeling approach to convert point cloud data into 3D mesh by importing it into the digital environment for editing and other operations. The 3D point cloud modeling approach can provide the system rich data in multiple dimensions. Incorporating AI for deep mining and understanding, this technology can help developers capture the subtle fundamental changes of people, objects, and scenes more keenly, extract key data, learn the inner knowledge logic, and realize the perception and understanding of complex sets. Compared with traditional 3D models, 3D point cloud technology is not constrained by manual modeling surface equations and surface continuity and can restore arbitrarily complex geometric objects with high precision and convenience, presenting finer details and sharper edges. The point cloud-based 3D modeling approach can quickly build a highly realistic 3D model directly from discrete points on the surface of an object or spatial scene, thus significantly reducing the threshold of 3D content creation and improving modeling fineness and speed.
WiMi's R&D team constructs digital twin models by combining 3D models with real-time data to describe the actual conditions of the physical world. By digitizing and perceiving real entities and elements in real-time, the model reconstructs a virtual entity in cyberspace that corresponds to them individually. From 3D model to digital twin model, WiMi's 3D Digital modeling system enables the digital twin cloud platform to realize the technical transformation of digitization, informatization, and intelligence and complete the upgrade of data, information, and knowledge service requirements. The digital twin is a fast and effective tool in transforming various societal industries. Doing a thorough, all-around, and systematic digital twin for complex systems can put the physical sector in a wholly digital, intelligent, and informative intuitive state, thus realizing the industrial metaverse.
WiMi's R&D team has been engaging in high-quality innovation and development of 3D modeling, continuously improving its system to adapt to various complex environments with advanced, real-time, intelligent, automated, and low-cost 3D modeling capabilities. WiMi intends to build a more robust digital twin platform with data-driven, model-driven, and knowledge-driven synergy for comprehensive perception, accurate diagnosis, and reliable prediction.
WiMi prepares human-machine interface based on electrooculography for VR glasses.
Source
https://holographica.space/news/wimi-eog/
April 12, 2023
The Chinese company WiMi Hologram Cloud, known for projects of equipment for augmented and virtual reality, such as solid-state lidars , spoke about the work on a system for interacting with virtual reality through electrooculography (EOG), which tracks eye activity with high accuracy by monitoring the muscles and outer layers of the retina. for changes in electrical potentials during the movement of the eyeballs.
The system should consist of three parts:
- a signal collection node,
- a processing node, and
- a signal transmission node to the virtual reality scene.
When the system is turned on, the person reacts to the scene in real time and makes the appropriate eye movements. The equipment collects EOG data, analyzes and converts them into commands. In this way, applications can obtain both a new control principle and new behavioral data that could not be collected with a conventional optical oculography system.
The EOG signal is the electrical potential difference between the cornea and the retina and can be used to reflect eye movements with an amplitude ranging from 0.4 to 10 mV. The human eye produces different EOG signals by performing different actions. Data processing mainly consists of several main steps: preprocessing, feature extraction, waveform detection, and classification. Having developed appropriate algorithms for analyzing electrooculography readings, WiMi wants to convert them into device control commands to create a human-machine interface.
At the same time, a virtual reality application can provoke and receive data of a different plan. For example, a person, in addition to visual information, will respond to sound, feedback from controllers and other stimuli. Avoiding mixing random responses with control signals is one of the challenges for WiMi algorithms.
The company claims that its development is highly innovative and has potential applications in a wide range of areas such as entertainment, medicine and work.
Unfortunately, in the published materials there is no information about in what form and at what price the solution will go on sale. It can immediately become part of the virtual reality glasses. WiMi already has HoloVR glasses with Nolo controllers in its range. They were approved for distribution in the United States by the Federal Communications Commission in 2022 . The company itself trades shares on the US stock exchange NASDAQ, which also shows interest in a particular geographic market.
Siyata Mobile Accelerates European Rollout of SD7 with Entropia.
Source
https://finance.yahoo.com/news/siyata-mobile-accelerates-european-rollout-123000735.html
April 1, 2023
Entropia to commence selling the SD7 solution to its broad base of enterprise customers.
Siyata Mobile Inc. (Nasdaq: SYTA/SYTAW), a global vendor of Push-to-Talk over Cellular ("PoC") devices and cellular signal booster systems, announces Entropia Investments BV ("Entropia"),
https://www.entropia.eu/EN/index.html
a leading provider of secure mobile mission-critical communications services to a wide range of end-users in the Netherlands, northern Belgium and the United Kingdom, is to commence selling Siyata's mission-critical PoC (MCPTT) SD7 solution in the second quarter 2023. Entropia has been a trusted provider of mission critical telecommunications and for over 30 years has supported emergency services, oil and gas corporations and transport sectors.
"Entropia is a leading European Mission Critical communication provider, and our unique product portfolio and solutions bodes well for the rollout of the SD7 on their network," commented Siyata CEO Marc Seelenfreund. "The European Land Mobile Radio market is forecast to reach $3 billion by 2027.
https://www.lucintel.com/european-land-mobile-radio-market.aspx
The SD7 is the perfect upgrade from LMR devices, which often have limited coverage, restricted functionality, and high startup costs. Our SD7 solves all those problems, delivering a far superior solution to a multi-billion industry."
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) device with excellent sound quality that operates over the high bandwidth 4G LTE network, providing consistent connectivity 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 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.
About Entropia
Entropia has been revolutionizing the world of telecommunications since 1990. Its mission is to provide the most reliable, secure and clear communications to the professional user allowing them to work safer, smarter and simpler. With complete flexibility, every organization can find their ultimate communications solution.
CloudMD Names Dhruv Chandra Chief Technology Officer to Accelerate Technological Advancement in Next Phase of Growth.
Source
https://finance.yahoo.com/news/cloudmd-names-dhruv-chandra-chief-103000859.html
April 10, 2023
CloudMD strengthens its commitment to innovation, exceptional customer experiences, data-driven insights, security, and compliance.
CloudMD Software & Services Inc. (TSXV: DOC, OTCQX: DOCRF, Frankfurt: 6PH), an innovative health services company transforming the delivery of care, announced the appointment of Dhruv Chandra as the Company’s new Chief Technology Officer. Dhruv will oversee and provide strategic direction to the technical and engineering teams within CloudMD. He will focus on the enhancement of the Company’s technology systems with a focus on a cloud-native, secure, and compliant architecture. Dhruv’s leadership experience coupled with his extensive cloud and security background will be harnessed across the entire CloudMD technology stack including the Kii platform to ensure a clear competitive advantage.
Dhruv has close to three decades of experience in technology transformation, risk management, data security, systems architecture, governance and compliance. He has an exemplary track record in leading transformation including as Principal Architect at Google and as Head of Governance and Compliance at RBC. Dhruv has led cross-functional teams to design, plan, implement, and govern complex technology strategies including managing cloud data risk management for some of Canada’s biggest financial institutions.
Dhruv primary responsibility will be ensuring vertical integration of technology that focuses on executing our product innovation roadmap, back-office integration, and driving our innovation agenda. He will help scale our systems to meet the increased customer demand for healthcare navigation and create a user experience that builds long-lasting relationships with users.
“Establishing a CTO role is critical to maximize our technical assets as we embark on CloudMD’s multi-year strategic growth plan,” said Karen Adams, CEO of CloudMD. “We were looking for a CTO who can push boundaries and stretch our thinking of what is possible in the delivery of healthcare. Dhruv’s responsibilities will include developing our customer facing technology roadmap, system integration, and driving our innovation agenda. He will work with the executive team and division leaders on product development, growth strategies, R&D priorities, and development of the CloudMD innovation playbook. We are leveraging technology to make it easier for individuals to access heath care navigation that is both personalized and solves business problems such as absenteeism and disability for our customers.”
“I am excited to join CloudMD as there is an incredible opportunity to help redefine how healthcare is provided and to make a positive impact on millions of lives. I am looking forward to working with the executive team and other leaders on integrating and enhancing CloudMD’s technology capabilities,” said Dhruv Chandra, Chief Technology Officer.
Dhruv will work with the executive team to ensure CloudMD delivers on its purpose of empowering healthier lives and will report directly to Karen Adams, CEO of CloudMD.
WiMi Builds An AI-based RAN-side Network Slicing Management System for Smart Decision Making.
Source
https://finance.yahoo.com/news/wimi-builds-ai-based-ran-120000685.html
April 06, 2023
WiMi Hologram Cloud Inc. (NASDAQ: WIMI), a leading global Hologram Augmented Reality ("AR") Technology provider, today announced the development of a network slicing management system at the RAN (radio access network) side centered on artificial intelligence. The system uses NFV (network function virtualization) technology to instantiate multiple virtual networks (named slices) on the same physical network infrastructure. It allocates dedicated resources and customized functions to each slice at each layer to accommodate the highly heterogeneous nature and demanding requirements of modern mobile services. The system applies AI to all phases of the slice lifecycle, enabling privilege control of network access and dynamic resource allocation in the network core and wireless access.
WiMi's system uses AI to solve the resource allocation problem for RAN slicing and deploys network slicing through NFV and SDN (software-defined networking) to provide diverse and personalized network services. The system can maximize the network's resource allocation needs on the RAN side while reducing costs. The system can be widely used in various network scenarios, such as HD video, cell phone networks, IoT, and IoV.
WiMi's AI-based RAN-side system manages network-slicing resources at different stages:
Physical layer:
Slicing, isolation, and dynamic adjustment of wireless resources, including spectrum resources, wireless port resources, RE (resource units) and PRB (physical resource blocks), etc.
Data link layer:
The protocol stack contains four modules, namely MAC/RLC/PDCA and SDAP, which mainly accomplish features such as slicing priority scheduling (execution level), channel resource slicing, proximity calculation, and QoS (quality of service) according to the different time requirements of service scenarios in the implementation of the slicing function.
RRC module:
It realizes slice authentication, slice priority allocation, and policy management of slicing. RRC module can manage slicing resources at the physical and data link layers.
Slice orchestrator:
It is used for global slice provisioning, with a more extensive range of slice resources under management.
RAN slicing contains three types of resources:
- air interface resources,
- protocol stack resources, and
- base station equipment resources.
Each resource can be divided into different slices according to its resource characteristics—for example, large bandwidth slicing, multi-access slicing, and low latency slicing. Or commercial-grade IoT, consumer-grade IoT, and Telematics are sliced. The system designs the resource occupancy of slices, the strategy of scheduling, and the granularity of division according to the characteristics of slices and then provides them to the slice scheduler for allocation. The slices are also reallocated, merged, and extended according to the control information sent by the slicing orchestrator.
As the applications of 5G networks continue to expand and 5G empowers vertical industries, various network QoS requirements (e.g., bandwidth, latency, security, etc.) are also created. 5G network slicing drives network architecture toward software and service. By providing end-to-end logical private networks that enable specific network capabilities, network slicing technology migrates computing, storage, and service capabilities to the network edge, enabling proximity computing and distributed deployment of applications to meet the differentiated service needs of industry verticals. WiMi's system supports rapid deployment, collaborative work, and complete lifecycle management of slicing, with on-demand customization capability of network slicing, automated deployment capability of slicing, end-to-end monitoring and collaboration capability of slicing, and intelligent operation and maintenance capacity of slicing.
Network slicing technology guarantees the end-to-end quality of service. In the future, network slicing technology will gradually involve scenarios including VR/AR, smart grid, smart manufacturing, smart park, UAVR, smart transportation, smart security, industrial automation, and a wide range of other industrial applications.
6-K 1 ea176702-6k
Source
https://www.sec.gov/Archives/edgar/data/1649009/000121390023028239/ea176702-6k_siyatamobile.htm
April 07, 2023
On April 6, 2023, Siyata Mobile Inc., a British Columbia (Canada) company, that is a global vendor of Push-to-Talk over Cellular devices and of cellular signal booster systems, received notice from the British Columbia Securities Commission (“BCSC”), which is the Company’s principal securities regulator in Canada, stating that the BCSC had, on that date, issued a cease trading order. The Order was received after the Company filed its Report of Foreign Private Issuer with the Securities and Exchange Commission on April 6, 2023 relating to the deficiency letters received from the BCSC.
The Order resulted from the Company’s failure to file its Annual Information Form, annual financial statements, annual management’s discussion and analysis, and certification of those annual filings for the Company’s financial year ended December 31, 2022, each within the timeline prescribed under Canadian securities and its failure to pay routine filing fees in connection with those filings.
The Order states that Canadian beneficial security holders who are not Company insiders or control persons may sell the securities acquired prior to the date of the Order if the sale is through a “foreign organized regulated market” (as defined in the applicable rules) and is made through a Canadian registered investment dealer.
The Company does not believe that the Order will impact the trading of the Company’s common shares and warrants, trading under the symbols SYTA and SYTAW, respectively, on the Nasdaq Capital Market.
Exhibit 99.1.
https://www.sec.gov/Archives/edgar/data/1649009/000121390023028239/ea176702ex99-1_siyatamobile.htm
The Company currently intends to file its AIF, annual financial statements, annual management’s discussion and analysis and certifications of its annual filings with the BCSC on or before May 15, 2023, which is expected to result in the revocation of the Order.
The information and documents furnished in this Report shall not be deemed to be “filed” for the purposes of Section 18 of the Securities Exchange Act of 1934 or otherwise subject to the liabilities of that section.
6-K 1 ea176493-6k.
Source
https://www.sec.gov/Archives/edgar/data/1649009/000121390023028041/ea176493-6k_siyatamobile.htm
April 06, 2023
On April 3, 2023, Siyata Mobile Inc., a British Columbia (Canada) company, that is a global vendor of Push-to-Talk over Cellular devices and of cellular signal booster systems, received two letters from the British Columbia Securities Commission (“BCSC”), which is the Company’s principal securities regulator in Canada.
One letter identified that the Company had failed to file its Annual Information Form (“AIF”) for the Company’s financial year ended December 31, 2022, within the timeline prescribed under Canadian securities regulation, and had failed to pay routine filing fees in connection with that filing.
The other letter identified that the Company had failed to file its annual financial statements, annual management’s discussion and analysis, and certification of those annual filings for the Company’s financial year ended December 31, 2022, each within the timeline prescribed under Canadian securities regulation, had failed to pay routine filing fees in connection with those filings.
Exhibits 99.1
https://www.sec.gov/Archives/edgar/data/1649009/000121390023028041/ea176493ex99-1_siyatamobile.htm
Exhibits 99.2,
https://www.sec.gov/Archives/edgar/data/1649009/000121390023028041/ea176493ex99-2_siyatamobile.htm
As a result of the failure to file the aforementioned annual documents within the prescribed timelines under Canadian securities regulation, Siyata has been designated as an issuer in default with those obligations by the two Canadian securities regulators under which Siyata is a reporting issuer, being the BCSC and the Alberta Securities Commission.
Failure to correct the above noted deficiencies may result in further enforcement action by the BCSC, as the Company’s principal securities regulator in Canada, including the issuance of a cease trade order that will apply in each jurisdiction of Canada to which the Company’s securities are subject.
The Company currently intends to file its AIF, annual financial statements, annual management’s discussion and analysis and certifications of its annual filings with the BCSC on or before May 15, 2023, which is expected to result in the Company ceasing to be designated as an issuer in default under Canadian securities regulation.
The Company does not believe that the designation Siyata as an issuer in default under Canadian securities regulation will impact the trading of the Registrant’s common shares and warrants, trading under the symbols SYTA and SYTAW, respectively, on the Nasdaq Capital Market.
The information and documents furnished in this Report shall not be deemed to be “filed” for the purposes of Section 18 of the Securities Exchange Act of 1934 or otherwise subject to the liabilities of that section.
Digitally Driven Service Upgrades Chinasoft International Showcased at Wuhan Service Expo with Intelligent Internet of Things and Other Xinchuang Achievements.
Source
https://finance.sina.com.cn/tech/roll/2023-04-04/doc-imypfafh9804710.shtml
April 0, 2023
On March 21, the twelfth China International Service Outsourcing Expo sponsored by the Ministry of Commerce and the Wuhan Municipal People's Government opened in Wuhan. Focusing on the theme of "Digital New Opportunities, Outsourcing and New Future", this year's Service Expo aims to implement the specific deployment of Digital China's construction, and closely focuses on promoting the high-quality development of the service trade industry. It is a digital service and service outsourcing industry. Concrete actions of the spirit of the 20th National Congress of the Communist Party of China. In the "2022 Promotion of China's Leading Enterprises in Digital Services and Service Outsourcing", Chinasoft International won the "Top 10 Leading Enterprises in Digital Services", "Top 10 Leading Enterprises in Employment Expansion", and "Top 100 Digital Services and Service Outsourcing Enterprises" after strict evaluation by the organizers and authoritative experts Enterprise" three honors.
This year's service expo comprehensively tracks the new trends in the development of global digital services, conducts in-depth research on the new requirements of the "dual cycle" and the "14th Five-Year Plan" for industrial development, and discusses the new opportunities and opportunities brought by the innovative development of artificial intelligence to digital services. New challenges, fully explore new technologies, new formats, and new models of digital services, actively promote the high-quality development of the digital service industry, and accelerate the transformation and upgrading of service outsourcing to high technology, high added value, high quality, and high efficiency.
In the high-end industry dialogue on the opening day, Tang Zhenming, senior vice president of Chinasoft International, was invited to discuss with a number of industry guests the opportunities and challenges that digital transformation brings to human production and life.
Tang Zhenming said:
"As a company that provides services for the digital transformation of governments and enterprises, in the era of digital economy, especially under the current national strategy of digital China construction, enterprises must seize new opportunities for digital development, embrace new technologies, and continue to innovate. Service model, and co-innovate needs with customers, in order to discover new markets and become the main force in the digital transformation.”
As an industry-leading global software and information technology service company and one of the top 100 companies in China's software and information service comprehensive competitiveness ranking 13th, Chinasoft International was invited to appear at the Expo as an outstanding digital service representative company, and settled in as "" The "Digital Service Technology Product Trading Exhibition Area" specially set up for the digital transformation of service outsourcing and the brand influence of "China Service" showed the audience the new products and new products launched by Chinasoft International in the field of digital service technology for many years. Technology, new achievements.
Wang Dongtang, Director of the Service Trade Department of the Ministry of Commerce, Ma Xiuhong, President of the China Council for the Promotion of International Investment, Chen Ping, Vice Governor of the People's Government of Hubei Province, Cheng Yongwen, Deputy Secretary of the Wuhan Municipal Party Committee and Mayor of the Municipal People's Government, and other leaders paid close attention to the industry leaders of Chinasoft International For the development of the enterprise, visit the company's exhibition area to listen and guide, and give high recognition to Chinasoft International's digital service innovation achievements. In addition, during the exhibition, Chinasoft International Intelligent Internet of Things Corps (AIG) displayed domestic intelligent Internet of Things technology products such as the Internet of Things development board kit LYEVK-3861A, industrial central control screen, KaihongOS full-scene experiment box, as well as intelligent water conservancy, intelligent transportation, urban Domestic smart networking construction solutions such as lifeline, smart factory, smart health care, smart fire protection, smart education, smart parking, and related typical scenarios.
Through the combination of on-site experience of intelligent networking products and case explanations, Chinasoft International's industry practice achievements in the field of open source Hongmeng and the achievements of open source Hongmeng ecological construction have been demonstrated at multiple levels. A dazzling "pearl". At the same time, Jiefanghao also demonstrated the innovative service model of "service + platform + ecology". Relying on Chinasoft International's IT service capabilities, it gathers huge and rich industrial ecological resources, and provides project managers for the whole process of project construction, such as planning, procurement, implementation, and delivery. services, and extended to project operation, maintenance and other links to provide operation butler services, escorting the digital transformation of government and enterprises.
Relying on the soft engineering capabilities and industry technical knowledge accumulated over the years, Chinasoft International will continue to build an expert brand of digital transformation services, and continue to innovate in the fields of open source Hongmeng, intelligent Internet of Things, cloud intelligence, etc., towards the core software services of technology-based innovation The direction of the business is upgraded and advanced, and it becomes a well-deserved co-creation partner for the digital transformation of global customers.
Siyata Mobile Receives Order from U.S. School District, Largest to Date in Education Vertical.
Source
https://finance.yahoo.com/news/siyata-mobile-receives-order-u-120000434.html
April 03, 2023
$600,000+ Order to Equip Teachers and Staff with SD7 Handset Enabling Direct Connectivity with First Responders.
Education Represents Largest Vertical Market Opportunity in U.S.
Siyata Mobile Inc. (Nasdaq:SYTA/SYTAW), a global provider of innovative Push-to-Talk over Cellular ("PoC") and cellular signal booster solutions, today announced it has received its largest order for the SD7 Handset from a single customer in the education market.
A school district located in the Southwest U.S. has placed an order at a gross purchase price of more than $600,000 for the Company's SD7 Handsets and related accessories. These devices will be used by the schools' safety staff, custodial staff, administration staff, selected teachers, and by their school bus drivers.
"This order represents our single largest SD7 Handset order in the education vertical to date," commented Siyata CEO Marc Seelenfreund. "This school district recognized the critical role that effective communication tools play in both efficient school operations as well as in times of emergency or crisis. With our SD7 Handset, teachers and school staff will be able to initiate and receive talk-group calls, receive private calls and notify first responders in case of an emergency. Our SD7 Handset is easy to deploy, can be implemented rapidly with minimal set up, requires no training and no additional maintenance or upgrades to the existing local network. The school district can count on its Push-to-Talk calls being received because the SD7 Handset works on a cellular network with ubiquitous coverage and geo-tracking, regardless of whether staff is in the school, on a field trip, or at an event."
"The education vertical represents our largest market opportunity 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," continued Seelenfreund. "School safety is a leading public safety concern, and many schools are seeking technology solutions that can help to create a safer learning environment. We believe that it is absolutely essential that teachers and staff be equipped with next-generation communication tools that enable clear and reliable communication within their school ecosystem, and to and from first responders during an emergency. Furthermore, our technology provides specific location information of the person triggering an alert to help speed response times."
CloudMD Suite of Services Available to Canadian Hospitals through Mohawk Medbuy.
Source
https://finance.yahoo.com/news/cloudmd-suite-services-available-canadian-103000758.html
April 0, 2023
CloudMD Software & Services Inc. (TSXV: DOC, OTCQX: DOCRF, Frankfurt: 6PH), an innovative health services company transforming the delivery of care, is pleased to announce a new vendor of record agreement for Employee & Family Assistance Program (“EFAP”), Internet based Cognitive Therapy (“iCBT”), Mental Health Coach, and Nurse Navigation Services provided through Kii. The non-exclusive agreement is with Mohawk Medbuy Corporation (MMC), a not-for-profit, shared services organization supporting hundreds of Canadian hospitals with supply chain, clinical and back office services. Concurrent with the vendor of record agreement, CloudMD has signed a multi-year contract with its first hospital customer.
“Hospitals across North America are dealing with significant levels of employee burnout and need additional mental and EFAP support,” said Karen Adams, CEO of CloudMD. “Through this new Mohawk Medbuy contract, a significant number of Canadian hospitals now have access to the benefits of CloudMD.”
The agreement was established on behalf of MMC’s Member hospitals through the organization’s proven procurement process, which fully complies with Broader Public Sector directives, CFTA and CETA to ensure fairness, openness and transparency.
“Health care workers have tough jobs at the best of times, even more so in recent years. The physical and emotional toll continues to challenge them and their families, layered on with increasing staff shortages and waitlists. CloudMD’s nurse navigation integrated with our suite of mental health and EFAP services creates an easy to use platform that delivers meaningful results for our partners and their employees,” said Colin Andersen, Executive VP, Public Sector of CloudMD.
The contract also allows for the option of additional CloudMD services such as medical second opinion, absence management, short-term disability management, workers compensation claims management and employment assessments and evaluations.
CloudMD Expands Health Care Navigation to Vision Care with Launch of Online Prescription Renewals in the United States.
Source
https://finance.yahoo.com/news/cloudmd-expands-health-care-navigation-103000843.html
April 03, 2023
CloudMD Software & Services Inc. (TSXV: DOC, OTCQX: DOCRF, Frankfurt: 6PH), an innovative health solutions company transforming the delivery of care, announced the launch of online prescription renewals through VisionPros. As of March 31st, 2023, individuals in qualifying U.S. states can renew their vision care prescriptions conveniently online. The inclusion of online prescription renewal is consistent with CloudMD’s vision of providing navigation and coordination for individuals health and wellbeing needs. This new service will provide the convenience and value individuals expect from their vision care supplier.
“We recognize that the ability to build long-term relationships with individuals requires us to be able to service all steps in the value chain. Providing online prescription renewals is an important offering to ensure that people are not overwearing their contact lenses. Prescription renewal is another example of how we are pushing forward our vision of building long-term relationships with individuals who require health and well-being services. It is important that people receive the personalized care that they need from all their healthcare services. We believe that by simplifying these healthcare decisions and reducing friction from the buying process we remove barriers, increase engagement, and improve health outcomes,” said Nathan Lane, EVP, Health and Productivity Solutions and US Operations.
“The launch of online prescription renewal is a major step in improving the quality and scale of revenue generated from our online eyecare platform while providing greater efficiency and flexibility in a person’s health care journey. To date the need to leave our ecosystem to get a prescription renewal has often resulted in the individual not completing their purchase. By adding this feature, we are decreasing churn and providing a mechanism to increase the lifetime value of a customer,” said Karen Adams, CEO of CloudMD. “This feature will enable our large customer base to provide their employees or individuals access to a service that not only provides contact lenses but can also provide eligible individuals with a prescription renewal an important part of a healthcare journey.”
The global contact lens market size is valued at US$14.6 billion dollars growing at a compound annual growth rate of 4.3%. According to Vision Council approximately 35% of buyers use the internet to purchase their contact lens with online stores expecting to have a higher compound annual growth rate than the wider industry.
WiMi Develops 5G-based Real-time Interactive Holographic Remote Education Management System to Boost Technical Advancement.
Source
https://finance.yahoo.com/news/wimi-develops-5g-based-real-120000455.html
April 05, 2023
WiMi Hologram Cloud Inc. (NASDAQ: WIMI), a leading global Hologram Augmented Reality ("AR") Technology provider, today announced the development of a real-time interactive holographic remote education management system based on 5G. The system improves the efficiency and effectiveness of remote holographic education and meets the needs of modern education. The holographic system displays the 3D reconstruction framework in real-time and integrates holographic interaction to realize remote real-time interactive communication. The technology combines holographic technology with remote education, offering a similar classroom experience.
The system generates real-time 3D images locally with 3D image reconstruction technology and uses a depth sensor to acquire and pre-process the data. The background is removed to obtain a foreground mask that contains only the object itself. After receiving the foreground mask of the captured data, a 3D point cloud is extracted. The 3D model is surfaced using the holographic algorithm technique using the point cloud data input. The generated 3D model is subsequently applied with texture mapping. After reconstructing a textured 3D model of the local object, the data, including mesh, texture, and audio, are transferred to a remote location over the network. After the real-time 3D reconstruction phase is completed, the next step is to enable 3D telepresence. The locally generated 3D model with textures is transferred to the remote location over the network and displayed at the remote site in real-time, enabling local and remote users to interact with each other via telepresence.
With the rapid spread of 5G networks, 5G technology can provide higher data transmission rates, greater bandwidth, lower latency, and more robust network security. This makes remote holographic education more stable, more real-time, and more secure to achieve. The gigabit bandwidth capability of the 5G network guarantees the "instant collection and transmission" of remote audio and video, and edge computing provides a technical guarantee for real-time processing and distribution of audio and video content. The low millisecond latency of 5G makes the interaction between local and remote more natural and smooth, and the real-time natural presentation of voice and facial expressions makes the interview interaction more immersive and in-depth for both parties. Using the 5G network, WiMi's interactive holographic education management system can realize real-time virtual interaction, significantly improving distance education's efficiency and quality improving distance education's efficiency and quality. Holographic technology gives students a strong visual impact and immersive experience, enriches teachers' classroom presentation aids, increases the interest in classroom teaching, and effectively improves students' learning efficiency and expertise.
WiMi's system uses a depth sensor to capture real-time 3D reconstructions and integrate them with holographic telepresence applications. Holographic projection technology is widely considered one of the most promising 3D display technologies and is expected to be more commonly used soon. With the future wave of 5G and AI-powered applications, holographic video conferencing, remote working, and home telecommunication will boast a considerable market.
WIMI develops a sensor-based electronic holography (EH) gesture control system.
Source
https://t.cj.sina.com.cn/articles/view/1765776051/693f9ab30200110ww?from=tech
March 31, 2023
It is reported that WIMI (NASDAQ: WIMI) has developed a gesture control system based on sensor-based Electro-Holography technology. The sensor-based gesture interaction technology can realize the interaction between the user and the electronic holographic (EH) image, and improve the user's interactive experience. The realization of gesture interaction technology requires a combination of various technologies, including sensors, digital signal processing, gesture recognition, control commands and other technologies.
The interaction technology of WIMI's sensor-based electronic holography (EH) gesture control system can realize the interaction between users and three-dimensional holograms. It uses sensors and computer algorithms to detect and recognize the user's gestures, so as to realize the control and operation of the holographic image. This uses sensors to capture the user's gestures, and uses infrared sensors, depth cameras and other devices to realize gesture recognition. These sensors can capture the user's gestures in real time, then convert them into digital signals, and then process and analyze them through algorithms, and finally realize the control and operation of holographic images.
WIMI Electronic Holography (EH) is a method that uses electrical signals and optical technology to generate three-dimensional holograms. Its basic logic is to use computer-generated digital signals to control the light source, so that the light passes through the data of the recorded object, and then passes through a series of optical elements to form a real three-dimensional image.
Electron holography (EH) needs to scan or record the object with a laser light source first, and store the recorded optical information in the digital three-dimensional image data. These digital signals are then converted into electrical signals, and parameters such as the intensity, phase, and frequency of the light source are adjusted through an electrical controller to accurately reproduce the shape and color of the original object. Eventually, these rays will be reconstructed through optical elements such as lenses and mirrors to form a real three-dimensional image. The advantage of WIMI's electronic holographic technology (EH) is that it can generate high-quality, high-resolution three-dimensional holographic images with a strong sense of reality and three-dimensionality. It has a wide range of applications in medicine, engineering, entertainment and other fields, such as three-dimensional imaging of internal organs of the human body, visualization of engineering design, etc.
WIMI's sensor-based electronic holography (EH) gesture control system uses a phase-modulated SLM, a laser with a wavelength of 1nm is used as a light source, and a motion sensor is an interactive interface for holographic objects. The holographic 3D image is projected in front of the SLM as a real image to enhance its visibility, and it can be observed on the image sensor of the camera, and the holographic 3D image can be easily converted into a virtual image. By the compiler, with single floating-point calculation precision.
WIMI's (NASDAQ:WIMI) sensor-based electronic holography (EH) gesture interaction technology includes the following steps:
Collect gesture data: use sensors, such as infrared sensors, depth cameras and other devices, to capture user gestures. These sensors capture user gestures in real time and convert them into digital signals. Gesture data may include finger trajectory, gesture shape, speed, and the like.
Gesture signal processing: perform digital signal processing on gesture data, use digital signal processing algorithms, such as fast Fourier transform (FFT), wavelet transform (Wavelet Transform), etc., to filter, denoise, feature extract, etc. Extract useful information, such as gesture speed, direction, shape, etc.
Gesture recognition: Match the processed gesture data with a predefined gesture template to realize gesture recognition. A gesture template is usually pre-stored standard gesture data, which can be a gesture or a group of gestures. Gesture recognition algorithms include K-nearest neighbor algorithm, support vector machine, decision tree, etc.
Gesture control: Once the gesture is recognized, it can be converted into a control command to realize the control of the electronic hologram. For example, the three-dimensional holographic image can be moved, rotated, and scaled, or a different display mode can be selected through gestures.
Sensor-based electronic holographic technology gesture interaction technology has broad application prospects in the market. With the development of technologies such as virtual reality and augmented reality, 3D holographic images, as an important means of 3D visualization, have received more and more attention. The gesture interaction technology is an important means to realize the interaction between the user and the 3D holographic image, which can improve the user's interactive experience and operation efficiency.
WIMI's (NASDAQ:WIMI) sensor-based electronic holography (EH) gesture control system can be applied in games, entertainment, education, medical care and other fields. For example, in the medical field, doctors can use gesture interaction technology to manipulate 3D holographic images for surgical planning and operation. In the field of education, students can learn knowledge about human body structure, geography and landforms through gesture interaction technology. In the field of games and entertainment, players can use gesture interaction technology to control the movement, attack and other behaviors of game characters. With the further development and maturity of technology, WIMI WIMI Hologram's sensor-based electronic holography (EH) gesture control system will have a wider application space in the future.
424B3 1 ea176019-424b3_siyatamobile.htm PROSPECTUS
Source
https://www.sec.gov/Archives/edgar/data/1649009/000121390023024971/ea176019-424b3_siyatamobile.htm
March 31, 2023
WIMI develops a dedicated computer system chip SoC-FPGA for real-time single-pixel holographic imaging.
Source
https://t.cj.sina.com.cn/articles/view/1765776051/693f9ab30200110bw?from=tech
March 2, 2023
Holographic single-pixel imaging is a computationally intensive technique that requires compact and efficient devices for specific applications. Embedded computers may be a potential solution, but they are not suitable for reconstruction calculations due to their low computational performance. Therefore, there is a need to realize a small computer with high computing performance in a single large scale integration (LSI) chip. WIMI has developed a dedicated system chip for single-pixel holographic imaging using Field-Programmable Gate Array (FPGA, Field-Programmable Gate Array).
FPGA is an LSI chip that can freely rewrite logic circuits on site. FPGAs can perform high-performance computing by designing application-specific circuits. WIMI hologram implements iterative calculation method, Hadamard transform and differential ghost imaging (DGI) on FPGA, and the whole process from reconstruction calculation to display is completed on FPGA, which speeds up image reconstruction.
It is reported that in this research and development project, WIMI has developed a special computer system chip (SoC, System on a Chip) FPGA for real-time single-pixel holographic imaging. SoC FPGA is a type of LSI in which an embedded CPU and FPGA are implemented on a single-chip system. It has higher computing performance than an embedded CPU alone, more flexibility than an FPGA alone, and can be much smaller than a computer. Furthermore, the choice of a reconstruction algorithm that should be implemented as a computational circuit is important for designing a computer dedicated to single-pixel imaging. Although FPGA has high computing performance, its hardware resources are limited, and it is not good at complex calculations such as division and square root calculations. The optimization method and deep learning in the algorithm can obtain high-quality reconstruction in single-pixel imaging, and the optimization method has the problem of computational load due to the iterative method.
WIMI Holographic SoC FPGA test process for real-time single-pixel holographic imaging:
The camera lens forms an image of the target object on the DMD. The image of the target object is modulated by encoding the mask pattern displayed on the DMD. The modulated light is collected by a lens and measured by a single-element detector before being converted to a digital signal. In addition, a dedicated computer reconstructs an image of the target object based on the light intensity.
The FPGA partially reconstructs the image, while the embedded CPU on the WIMI Holographic real-time single-pixel holographic imaging dedicated computer system chip SoC-FPGA generates and initializes the drawing on the holographic display.
The object light is formed on the DMD by the camera lens. A coded mask pattern is displayed on the DMD by which the subject light is modulated. The modulated light is collected by a lens and measured as light intensity by a single-element detector. The obtained light intensity is converted from an analog intensity signal to a digital signal by an analog-to-digital converter. Repeat this when switching encoding masking modes. The receive circuitry in the FPGA saves the converted signal in the FPGA's internal memory when the sync signal is asserted, which is generated when the DMD switches to a new encoding mask mode. After the receiving circuit saves the signal for a specified number of times, the reconstruction circuit starts to calculate the holographic image of the target object. Then, the embedded CPU on the SoC FPGA chip receives the reconstruction result and displays it on the dedicated display panel to realize real-time observation of the holographic image of the target object on the dedicated holographic display panel.
In order to improve computing efficiency, WIMI adopts a ghost imaging related algorithm in the SoC-FPGA of single-pixel holographic imaging, which is suitable for FPGA. The algorithm has low memory usage and simple calculation form. The algorithm introduces an encoding mask pattern optimization. This ghosting algorithm improves image quality, but has higher memory requirements.
Specifically, the implementation of the ghost imaging algorithm requires the use of two spatially separated beams:
- a reference beam and an object beam. It is an imaging method based on cross-correlation or cross-correlation-like techniques, which enables image reconstruction by using single-photon detectors. The basic principle of the algorithm is to take a cross-correlation measurement between two spatially separated beams and then use a computer algorithm to reconstruct the target image. For example, a reference beam passes through a random perturbation device, which produces a random pattern of light intensity. These light intensity patterns are transmitted into the object beam, where they are detected by single-photon detectors after passing the object. The light intensity values ??measured by the single-photon detector are recorded and cross-correlated with the light intensity pattern of the reference beam. The information of the target image can be obtained by averaging multiple cross-correlation measurements.
The ghost imaging algorithm has some unique advantages in imaging, such as the ability to realize three-dimensional holographic imaging without an objective lens, suitable for imaging at low light levels, and suitable for multiple imaging modes such as transmission and reflection imaging.
WIMI Holographic's real-time single-pixel holographic imaging dedicated computer system chip SoC-FPGA can obtain higher image quality than traditional holographic imaging technology, and through SoC-FPGA integrated structure optimization and algorithm optimization can achieve size, image quality and speed Real-time holographic imaging is realized through the improvement. And because the SoC-FPGA dedicated to real-time single-pixel holographic imaging is very compact compared with typical computer servers, it can extend the application of single-pixel imaging to the Internet of Things and outdoor applications. Dedicated specific applications also include the implementation of satellite topographical surveys, and can also be used for object tracking to build car navigation IoT systems.
Explosive Growth Of Lidar Industry: WiMi Innovates Its Automatic Drive Tech.
Source
https://www.newstrail.com/explosive-growth-of-lidar-industry-wimi-innovates-its-automatic-drive-tech/
March 24, 2023
How hot is the lidar radar? Not only are more and more new models competing for configuration, but some models that were released earlier and did not planned to install lidar before, are also trying to keep up with the boom of “replacement” lidar. Car companies have also launched an “arms race” on the number of lidar assembled, from the initial one, to the conventional two to three, to the recent news that Xiaomi cars may be equipped with five lidar when it is launched.
Thanks to the rapid growth of the on-board lidar market, the names of lidar manufacturers such as Huawei and Luminar have also entered the public view and followed the fast track. Automotive technology has been improving in recent years, especially with the development of autonomous driving technology, with the help of lidar. With its help, the car collects the information on the road at the fastest speed, and uses the on-board chip processing to realize autonomous driving.
One of the key factors in the development of self-driving cars is on-board sensors, which enable the car to “see” the road and help it understand what’s happening around it. —— In most cases, this sensing capability is better than anyone can do.
Self-driving cars need to be able to identify people or things on their way, identify features of the road system, and constantly deal with various traffic problems and other challenges that users deal with on the road every day. To overcome these obstacles, self-driving cars require a range of technologies such as cameras, radar, lidar and infrared.
The advantages and applications of lidar
The LIDAR, the Light Detection and Ranging, can be found in almost every self-driving car that is tested. The lidar is designed to provide a complete 360-degree panoramic view, using laser pulses to visualize the vehicle’s surroundings in the form of a three-dimensional “point cloud”. The technology has been extremely successful in helping many OEMs into practice their ambitions in self-driving cars.
From the perspective of the industrial chain, the rapid growth of the on-mounted lidar market is mainly due to several factors.
- First, the accelerated penetration of autonomous driving has led to the rapid growth of the lidar market. According to IDC, the penetration rate of L2 autonomous driving passenger vehicles was 23.2 percent, up 7.5 percent year on year. Since last year, a number of models that can support L3-L4 class autonomous driving, including Mercedes-Benz and BMW, have been delivered. Mercedes-Benz is the first car company in the world to truly realize the mass production of L3 class autonomous driving in many countries and regions. These vehicles have accelerated the mass-production speed of the lidar to some extent.
- Second, the various technical routes of lidar can meet the different needs of autonomous driving in different scenarios. At present, except for Tesla, other oems are actively deploying autonomous driving solutions with lidar as its main sensors. For example, low-speed closed scenarios such as ports and mines have high requirements on the cost and reliability of lidar, and the mirror rotating or MEMS schemes with high maturity can be given priority.
- Third, the price of lidar is expected to drop due to various factors, and it may become a standard sensor for autonomous vehicles in the future. As more car companies cooperate with lidar manufacturers, the cost of lidar is expected to be further reduced under the scale effect, and the mass production of lidar is expected to be further accelerated in the future.
Lidar is very promising
According to market research firm Allied Market Research, the global driverless technology market will reach $556.67 billion in 2026, achieving a compound annual growth rate of 39.47% compared with 2019.
As the key to the realization of high-level unmanned driving technology, the development prospect of lidar is also very promising. According to Frost & Sullivan, the global market for lidar will be us $13.54 billion in 2025. Across the world, China could be the fastest-growing market for lidar. By 2025, China’s lidar market size will reach 4.31 billion US dollars.
WiMi helps the autonomous driving industry grow
It is understood that in the face of such a broad market prospect, in many lidar related enterprises, WiMi Hologram Cloud (NASDAQ: WIMI) stands in the first echelon of technology. According to the data, WiMi’s technology is mainly concentrated in on-board AR holographic HUD, 3D holographic pulse LiD AR, head-mounted light field holographic equipment, holographic semiconductor, holographic cloud software, holographic vehicle navigation, universe holographic AR / VR equipment, universe holographic cloud software and other professional fields. Relying on the independent and complete core technology system, the extension of WiMi business involves intelligent driving (such as vehicle-road collaboration, autonomous driving, etc.) and digital twin (such as mapping and collection of high-precision maps).
According to the report, the leading WiMi of software and hardware technology strength support, the research and development of 3D holographic pulse laser radar to realize the road identification detection, dynamic and static obstacle detection, driving area detection, radar perception fusion such as perfect environment function, and through the “one-stop” service support, fu to automatic driving project implementation “point to point” whole scene environment perception, to achieve the large-scale application of laser radar in the market, help project authors efficiency, promote large-scale rapid form of autopilot project.
In addition, in order to further explore the field of intelligent driving and accumulate more rich experience, WiMi tries to unlock 3D visual perception technology and expand the application of AI vision in the automotive field. It can be said that technology giants like WiMi have entered the field of intelligent driving with their strong technical strength as well as the original accumulation formed in the original business, which has greatly contributed to the development of the industry and gained the attention and expectation of capital. In the medium and long term, the continuous technological innovation, the continuous pursuit of the ultimate enterprise core, as well as WiMi’s continuous innovation in technology, in the future or will become the leader in the field of intelligent driving.
future trend
On the whole, in the context of the high popularity of autonomous driving, both start-up players and big manufacturers have chosen to promote the mass production of lidar to accelerate the car, and they also have quite similarities in their realization path. Objectively, tech giants and start-ups have unique advantages and have their own directions.
Lidar is entering the scale boarding cycle, and the boarding effect is still receiving the market feedback, which also directly affects whether the lidar will quickly usher in a larger volume. In any case, 2023 is a crucial year for players in the lidar subdivision track, with players bound to stand out from the first wave of growth.
WIMI (NASDAQ: WIMI) develops an industrial IoT data storage system based on LRC sharding blockchain.
Source
https://cj.sina.com.cn/articles/view/7651844612/1c815e20402001g3ag?from=finance
March 23, 2023
According to reports, WIMI (NASDAQ: WIMI) developed an industrial Internet of Things (IIoT) data storage system based on LRC (Local Reconstruction Codes) sharding blockchain. The IIoT data reliability problem is solved through LRC, and the data storage and verification security problem of the blockchain itself is solved through a bilinear accumulator. It also adopts coded sharding technology to ensure data reliability and blockchain scalability during operation. Efficient, reliable and secure data storage and management.
The Industrial Internet of Things (IIoT) is the continuous integration of various acquisition and control sensors or controllers with sensing and monitoring functions, as well as mobile communication, intelligent analysis and other technologies into all aspects of the industrial production process, thereby significantly improving manufacturing efficiency. Improve product quality, reduce product cost and resource consumption, and finally realize the upgrading of traditional industries to intelligence. However, IIoT is currently an emerging system structure with a complex structure and no unified standard, but security issues in all aspects of industrial control also need to be resolved urgently.
And with the rapid development of Industrial Internet of Things in recent years and the continuous improvement of Industrial Internet of Things technology, more and more enterprises have begun to pay attention to the collection, storage and processing of industrial data. However, the storage and processing of industrial Internet of Things data is facing many technical problems, such as large data capacity, high real-time requirements, data security and reliability and other issues. Among them, the data security of IIoT is facing huge challenges. Blockchain has the characteristics of decentralization and tamper-proof modification, and has natural advantages in solving data security problems of IIoT. WIMI Hologram is based on the LRC sharding blockchain industrial IoT data storage system, and based on distributed storage technology and blockchain technology, it realizes efficient, safe and reliable industrial IoT data storage and management. The overall structure of the system is shown in the figure:
Global network
A global/centralized network can provide the highest resource capacity. It follows the traditional centralized cloud computing method and consists of cloud servers hosting software, responsible for planning, monitoring and managing resources, and handling the logical execution of architectural functional components, providing a globally available service platform for applications requiring high storage and computing capabilities . As the core architecture of IIoT, it is connected with the blockchain to form an overall system structure combining IIoT and blockchain.
Edge network
Blockchains are connected through a global network as an edge network. Each blockchain contains N shards, each shard contains an edge node and an IIoT node that can be stored in the permissioned blockchain, and the two nodes are connected to form a shard node. Finally, the edge network is connected with the global network to form an overall structure. In order to further improve the system structure formed by IIoT and fragmented blockchain, WIMI has added LRC to solve IIoT data reliability issues, and added a bilinear accumulator to solve the data storage and verification security issues of the blockchain itself. The structure achieves data storage security through bilinear accumulators, and uses coded sharding technology to ensure data reliability and blockchain scalability during operation. In terms of system structure, the encoding fragmentation technology ensures the data reliability of IIoT and increases the fault tolerance of the blockchain system. At the same time, the anti-attack ability of the system can be improved by encoding the data.
LRC Fragmented Blockchain Structure
In order to better ensure the data security of IIoT, the data block in each sharding node of the blockchain is encoded based on the LRC sharding blockchain industrial IoT data storage system. This fragmentation encoding is used to ensure the reliability of the data. LRC can not only guarantee the reliability of data in the blockchain, lower bandwidth requirements, higher repair efficiency, but also repair wrong node data.
WIMI (NASDAQ: WIMI) is based on the LRC sharding blockchain industrial IoT data storage system. LRC (Local Reconstruction Codes) is used to provide high reliability and fault tolerance in the distributed storage system. It can repair the stored data locally without restoring data from other nodes or backups.
In the distributed storage system of WIMI, LRC divides the data into multiple data blocks and generates multiple check blocks. The characteristic of LRC is that it will determine a coefficient matrix according to the quantitative relationship between the check block and the data block, and then apply this coefficient matrix to the data block and the check block to generate the check value. When a data block is damaged or lost, by using the check block and check value stored locally, the data block can be repaired locally without restoring data from other nodes or backups.
The advantage of LRC is that it can reduce the overhead of data reconstruction and data transmission, and improve the efficiency of data recovery. At the same time, because LRC can be repaired locally, it can reduce data transmission between nodes, reduce the pressure on network bandwidth, and improve the fault tolerance of the entire system.
With the rapid development and application of industrial IoT technology, WIMI (NASDAQ: WIMI) based on LRC sharding blockchain industrial IoT data storage system has broad market prospects and application requirements, such as:
Industrial production process monitoring
The industrial production process involves data interaction between many devices and systems, and these data usually contain key information of the production process. The industrial Internet of Things data storage technology based on the LRC sharding blockchain can realize real-time collection, storage and management of production process data, ensure data integrity and traceability, and improve the reliability and efficiency of the production process.
Internet of Things device security supervision
Data security supervision of IoT devices is very important for the normal operation of devices and the protection of business secrets of enterprises. The industrial IoT data storage technology based on the LRC sharding blockchain can realize real-time supervision and recording of device data, ensure data security and integrity, and thus ensure the safe operation of IoT devices.
Energy Management and Monitoring
Energy management and monitoring involves real-time monitoring and data collection of energy equipment and systems. Using the industrial Internet of Things data storage technology based on LRC sharding blockchain, real-time monitoring and data collection of energy equipment can be realized, and these data can be safely stored and managed. In this way, we can better understand the energy usage, optimize the efficiency of energy usage, and reduce the energy cost of the enterprise.
Logistics and Supply Chain Management
Logistics and supply chain management involve the transfer and processing of many data, including logistics, goods, orders and other information. The industrial Internet of Things data storage technology based on the LRC sharding blockchain can realize real-time collection and storage of these data, and ensure the security and non-tampering of the data, thereby improving the transparency and traceability of the supply chain and reducing information circulation. risks and uncertainties.
WIMI Hologram is based on the LRC sharding blockchain industrial IoT data storage system, and also supports automatic expansion and load balancing functions, which can automatically detect the storage capacity and load of nodes, and dynamically add or delete nodes as needed to ensure data security. High availability and stability. Based on the characteristics of fault tolerance, high efficiency and flexibility of the LRC sharding blockchain industrial IoT data storage system, WIMI Hologram can provide enterprises with reliable data storage and backup solutions, and can also provide data for industrial IoT data applications. The development and application provide strong technical support.
WiMi Hologram Cloud Develops Holographic 6D Sensor for Flexible and Adaptive Production.
Source
https://finance.yahoo.com/news/wimi-hologram-cloud-develops-holographic-120000699.html
March 21, 2023
WiMi Hologram Cloud Inc. (NASDAQ: WIMI), a leading global Hologram Augmented Reality ("AR") Technology provider, today announced that more efforts would be put into the integration of worldwide information and the development of intelligent holographic 6D sensors.
Sensor technology has undergone many years of development and is generally divided into three generations in the industry. The first generation is structural sensors, which use changes in the number of structural parameters to convert into signals. The second generation is solid-state sensors, composed of solid components such as magnetic materials, dielectrics, and semiconductors. The third generation is intelligent sensors, which are currently used in many applications such as consumer electronics, intelligent robotics, automotive/industrial manufacturing, and medical devices.
WiMi's holographic 6D sensor can accurately measure 3D orthogonal forces and 3D orthogonal moments in any direction in space: Fx, Fy, Fz, Mx, My, and Mz. The sensor is the highest dimensional force sensor, with rich force information, high measurement accuracy, and comprehensive force feedback.
WiMi's 6D sensors provide precise "tactile" sensing for industrial equipment or robots and are a powerful aid to industrial automation in intelligent manufacturing and robotic assembly scenarios. It can also solve the problems of collision detection, flexible dragging, precision control, and intelligent collaboration and is a core component for achieving flexible force control of industrial robots. If deployed in intelligent manufacturing, the holographic 6D sensor can enhance the flexibility of joints, decouple the interference between forces and moments in each direction and make force measurement more accurate. Not only can the sensor accurately measure forces, but the user can also use the moment information to derive the attitude of the stressed part and to check that the moment is within safe limits. The holographic 6D sensor is mounted on the end of the manipulator and can indicate the right size of force and stroke. In collision avoidance warning, the sensors provide early feedback to cut off power and avoid damage to people and equipment through holographic LiDAR and industrial cameras. It's like holding an irregular screw in hand. The brain instructs executing it in the best and most comfortable route and angle and can calculate the estimated force. When the hand touches the screw, the sensor will give feedback on the sensation, prompting it to pick it up with the appropriate force to avoid injury. The holographic 6D sensor is the tactile nerve of the robot. Combining holographic 6D sensors and industrial intelligence with holographic LiDAR can be applied to intelligent, flexible robot assembly operations.
In addition, it is worth mentioning that WiMi has been committed to the research and application of holographic technology and development with years of holographic digital technology reserve and is the leader in China's holographic industry. WiMi has obtained over 1,000 holographic-related patents and deeply integrated holographic technology with various industries. Holographic 6D sensors can be combined with artificial intelligence, holographic LiDAR, and industrial cameras, linking high-dimensional sensors and machine vision with precision force control technology to achieve motion path planning and force control to complete high-precision multi-environment precision operations, with high stability, continuous operation capability, and environmental adaptability. It can be used in various industries, such as force-controlled precision assembly, force-controlled precision grinding, crash testing, rehabilitation robots, and humanoid robots.
F-1/A 1 ea174318-f1a1_siyatamobile.htm AMENDMENT NO.1 TO FORM F-1
Source
https://www.sec.gov/Archives/edgar/data/1649009/000121390023023157/ea174318-f1a1_siyatamobile.htm
March 27, 2023
Siyata Mobile Collaborates with CrisisGo to Introduce Cellular-Based Paging Services.
Source
https://finance.yahoo.com/news/siyata-mobile-collaborates-crisisgo-introduce-120000287.html
March 27, 2023
Wireless Paging Systems Market Opportunity Expected to Grow to $722 Million by 2027.
https://www.futuremarketinsights.com/reports/wireless-paging-Systems-market
Siyata Mobile Inc. (NASDAQ:SYTA)(NASDAQ:SYTAW), a global provider of innovative Push-to-Talk over Cellular ("PoC") and cellular signal booster solutions, today announced it is collaborating with CrisisGo, Inc., provider of the CrisisGo Panic app, an incident management platform for first responders, to introduce next generation, cellular-based paging services for use by emergency response personnel.
Together, CrisisGo's emergency communication system and the Siyata SD7 handset offer a smart, simple and safe paging replacement solution to equip first responders and healthcare system personnel with innovative solutions that enhance emergency response capabilities. The CrisisGo Paging Services solution works seamlessly across both cellular and WiFi networks, breaking geographical limits and providing richer and more reliable capacities for more timely and more reliable emergency communications.
"Increasingly, wireless paging systems are being adopted to send and receive messages to individuals during an emergency or crisis," commented Siyata CEO Marc Seelenfreund. "Pagers are an essential tool for firefighters, clinicians and emergency medical technicians, but they are no longer the full answer in today's emergency response. Traditional pagers provide only one-way communication, and no GPS tracking. Together with CrisisGo, our SD7 handset offers a smart, simple and safe paging replacement solution that works seamlessly across both cellular and WiFi networks to provide clearer and more reliable two-way communications."
"The total market opportunity for wireless paging systems is estimated to grow to $722 million by 2027," continued Seelenfreund. "In addition to emergency response, there are a number of additional uses cases for wireless paging systems in other fast-moving industries such as food services, logistics and transport, warehousing and healthcare. We believe there is a meaningful opportunity for us to drive growth in our business with instant messaging and the rising adoption of pagers by businesses."
Siyata Mobile will be showcasing how CrisisGo Inc.'s Panic App can be integrated into its SD7 solutions in booth 2125 at the International Wireless Communications Expo ("IWCE") 2023. IWCE is being held at the Las Vegas Convention Center March 27-30.
"What some may not realize is that pagers are still a widely used tool to communicate, even though their capabilities are outdated compared to the average smartphone," commented Jim Spicuzza, CrisisGo's CPO and Co-Founder. "The benefit of simple pager systems over smartphones is that they're still a more cost-effective solution. What we are experiencing with the SD7 is a perfect blend of both, enabling dispatch to send pages, questions and the pager users can send and receive specific information, GPS location and utilize PTT as option. Pair that with CrisisGo's enhanced Safety iResponse platform and we have the most feature-rich, cost-effective solution to replace current legacy pager systems."
The SD7 paired with CrisisGo's advanced alerting solution, Safety iResponse, opens the door to safety communication capabilities in any industry looking to enhance its safety ecosystems.
The SD7 enables push-to-talk communications for first responders and enterprise clients. It is a simple easy-to-use rugged Android based MCPTT solution with excellent sound quality that operates over the high bandwidth 4G LTE network, providing consistent connectivity across 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. The SD7 allows first responders as well as secondary support personnel to quickly connect and coordinate on unified public cellular networks in North American and international markets. Users of the SD7 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.
About CrisisGo
CrisisGo is the leading safety platform and emergency solution serving at the intersection of communities and organization stakeholders' personal and professional lives. We are trusted by more than 16,000 schools and organizations, including Fortune 500 companies, to keep them connected and maximize critical safety resources. CrisisGo is privileged to be a part of the FirstNet mobile app ecosystem and have demonstrated reliability as an AWS Advanced Technology Partner.
Learn more at
https://www.crisisgo.com/
and follow our
- Blog
https://www.crisisgo.com/blog
- Twitter
https://twitter.com/crisis__go?lang=en
Bram Lowsky joins CloudMD as new Head of Health and Wellness Services (formerly Enterprise Health Solutions).
Source
https://finance.yahoo.com/news/bram-lowsky-joins-cloudmd-head-103000001.html
March 27, 2023
Under his leadership, CloudMD will continue to focus on empowering healthier lives through healthcare navigation, a robust clinical network and technology enhanced outcome-focused services.
CloudMD Software & Services Inc. (TSXV: DOC, OTCQX: DOCRF, Frankfurt: 6PH), an innovative health solutions company transforming the delivery of care, announced the appointment of Bram Lowsky as Executive Vice President, Head of Health and Wellness Services at CloudMD. In this role Bram will be focused on continuing to deliver high quality health and wellness services with exceptional member experience and strong clinical outcomes.
“I am very pleased to welcome Bram to our executive leadership team,” said Karen Adams, CEO of CloudMD. “This is a pivotal time at CloudMD as we begin to scale our operations to serve a fast-growing customer base. The success of our strategic roadmap relies on our ability to effectively scale service delivery while maintaining high member engagement to empower individuals to lead happier, healthier, and more productive lives. Bram will drive a culture that puts both customer experience and clinical outcomes at the forefront. Under Bram’s leadership, we will accelerate our strategy of leveraging healthcare navigation to ensure personalized and connected care.”
Bram commented, “I am inspired by CloudMD’s strategic vision which focuses on whole person care by supporting mental, physical and occupational health issues through a connected network of healthcare professionals. I’ve built my career helping businesses across the talent lifecycle with the goal of empowering employees to manage both their health and careers. CloudMD has the solution for the next evolution in employee lifecycle management, their integrated program, Kii, addresses the employees' health in a unified manner. HR leaders today understand that organizational resilience is a key driver of productivity and that helping their employees to be healthy and happy is essential in achieving this.”
Bram has over 20 years of experience where he has demonstrated his ability to transform organizations in the delivery of health, wellness, and change management services. He has delivered record revenue growth and profitability gains at multiple companies and is recognized as being an industry leader in increasing employee productivity. His entrepreneurial spirit shines through in his work building and empowering teams to deliver measurable results. He recently held executive leadership roles at Randstad RiseSmart, and Ceridian
Bram will work with the executive team to ensure CloudMD delivers on its purpose of empowering healthier lives and will report directly to Karen Adams, CEO of CloudMD.
The unveiling ceremony of Chinasoft International (Gui'an) Global Operation and Maintenance Center was successfully held in Gui'an New District, Guiyang.
Source
https://www.chinasofti.com/news/2559.htm
March 24, 2023
Recently, the unveiling ceremony of Chinasoft International (Gui'an) Global Operation and Maintenance Center was successfully held Area , Guiyang . He, Liu Gang, President of HWG of Chinasoft International , and Hu Qiming, President of HWG Cloud Application and Service Business Line, attended the unveiling ceremony.
Liu Gang, President of HWG of Chinasoft International, said that Chinasoft International and Guiyang have a good foundation for cooperation. The "Guizhou Hub Computing Power Scheduling Platform" jointly created by "Guizhou on the Cloud" officially appeared at the Expo; now relying on the operation and maintenance business foundation established in Gui'an New District, focusing on digital intelligence operation and maintenance, it will take three to five years to build a remote operation and maintenance platform. The maintenance business delivery center has become a global operation and maintenance business benchmark and demonstration base, and it took ten years to become a global TOP10 operation and maintenance enterprise in terms of revenue and scale.
He Hao, director of the Guizhou Provincial Information Center, said that Chinasoft International has cooperated with Guizhou for a long time, and is an important participant and enabler in the development of big data and digital economy in Guizhou. The establishment of Chinasoft International (Gui'an) Global Operation and Maintenance Center marks a new step in the cooperation between Chinasoft International and Guizhou. We sincerely look forward to working hand in hand with such outstanding enterprises as Chinasoft International to share the benefits of the digital age and develop together. The digital economy blueprint contributes to the development and innovation of the digital economy, contributes Guizhou wisdom to the construction of digital China, and becomes a practical explorer of modern Guizhou.
Mao Yinqiang, deputy director of the Gui'an New District Management Committee, said that Chinasoft International is an industry-leading global information technology service company, and has achieved remarkable results in business development. The development concept is very suitable for the development of digital economy in Guiyang Gui'an , This time, Chinasoft International established a global operation and maintenance center in Gui'an Science and Technology Innovation City, Guiyang, and became the first partner to settle in the Science and Technology Innovation City, adding vitality to Gui'an Science and Technology Innovation City. Today's unveiling marks a new step in the development of Chinasoft International in Gui'an New District, and also a solid step in the development of Guiyang Big Data Science and Technology Innovation City.
The global operation and maintenance center established by Chinasoft International in Gui'an will closely follow the needs of digital transformation and establish an IT talent incubation center; seize the opportunity of Guiyang's "East Counting and West Computing" application as a driving force to build a nationwide computing power guarantee base, and build Computing power support center; in combination with Guiyang’s promotion of the “Software Restart” initiative, vigorously develop basic software, industrial software, and embedded software planning, and start to build a software factory DSV business. Chinasoft International will continue to make special investment in the direction of intelligent operation and maintenance, join hands with industry pioneers to focus on digital intelligent operation and maintenance, create an industry-leading operation and maintenance model, and add luster to Guizhou's digital construction.
Yuan Universe office scene is expected to be the first to land, and WIMI holographic technology empowers to open up new formats.
Source
https://t.cj.sina.com.cn/articles/view/1765776051/693f9ab3020010xa6?from=tech
March 17, 2023
The Metaverse is a virtual world built by humans using digital technology that can interact with the real world. "Metaverse" integrates a large number of existing technologies, including 5G, cloud computing, artificial intelligence, virtual reality, blockchain, digital currency, Internet of Things, human-computer interaction, etc.
According to Gartner's prediction, by 2026, fields such as learning, shopping, and social networking will be connected to the metaverse, and about a quarter of the world's population will spend at least one hour in it. The website of Forbes biweekly in the United States reported that the market size of the global metaverse is expected to reach 5 trillion US dollars in 2030.
The future of office has come
Metaverse technology can be used for corporate employee training. For example, consulting giant Accenture has created a metaverse environment with the main features of a real office, allowing employees to perform many human resources-related tasks in the virtual world. From the perspective of changes in office models, office models such as online text communication and teleconferencing can no longer meet the needs of modern office. The metaverse office derived from the metaverse concept has more advantages.
At present, some companies can conduct Metaverse office by building online Metaverse digital office buildings and other methods. In this office model, Metaverse will multiply the capabilities of remote work platforms, allowing users to access a complete office suite, interact with colleagues, and more, no matter where they are. This digital metaverse office model has the advantages of high efficiency and flexibility.
In addition, Zuckerberg, CEO of META (META.US), once showed the world a holographic virtual conference at the end of 2021. Through VR/AR, holographic projection and other technologies, three-dimensional conference scenes can already be realized. It is expected that with the development of technology, this will also be a new form of metaverse office.
Not only that, Alphabet (GOOG.US) Project Starline, the parent company of Google, has been in development for 5 years. The subject of the research is 3D video calling, which provides users with a three-dimensional deep video chat system. Microsoft (MSFT.US) has also launched its own mixed reality service, Microsoft Mesh, which can transmit information such as users and working environments to smart glasses or other head-mounted display devices in the form of generating three-dimensional images.
Judging from the above phenomena, the metaverse office technology of conference calls seems to be developing towards popularization. Compared with traditional video calls for office work, 3D holographic images can enable both sides of the call to enhance expression and understanding through body language. The important thing is that holographic projection technology will bring us a brand-new remote office communication method, making user interaction more interesting and frequent.
WIMI holographic remote collaboration opens up a new way of efficient office
As for the technology of holographic projection, many companies have been researching and trying it for a long time, especially in the past two years, the demand for this technology has become more urgent. It is understood that WIMI.US, the first holographic AR stock, has a self-developed holographic content library, including holographic projection technology scenes, displayed models, virtual characters and other content. At the same time, the holographic cloud platform under WIMI can maintain applications in various scenarios, and realize online and offline remote office work forms, without being rigid or limited by space.
It can be said that the application of holographic technology has given birth to a new office model, that is, remote call holographic technology has emerged as the times require. WIMI provides a smarter, more efficient, and more convenient way of communication, realizing a hybrid office model. In the visualized 3D meeting room space, participants can also perform operations such as greeting, applauding, and moving, making the entire meeting communication more warm and interactive. For the layout of the holographic remote call market, WIMI will strive to promote the wide application of holographic technology in metaverse office meetings.
Holographic technology has been a very popular technology in recent years, and it is realized through the principle of polarization of light. In terms of industrial applications, WIMI helps museums better explain the origin and history of collections based on holographic projection technology, and uses holographic technology with hundreds of billions of large pixels to explain traditional culture on dynamic screens.
In the future, WIMI will continue to combine cutting-edge hardware and innovative software to bring complete immersive solutions, bringing new development ideas to the fields of training, conferences, art, entertainment, film and television, and industry, and also bringing new ideas to the digital economy era. Inject new impetus into the transformation and development of the enterprise under the current situation.
end
The future office is bound to present a more diversified form of integration, not only remote office, holographic projection and other technology-assisted remote office, meeting scenes. With the development of technology and expansion to more business scenarios such as announcements, exhibitions, and marketing, head platform companies will also continue to iteratively upgrade and become the right-hand man of enterprises in the metaverse era.
Siyata Mobile Welcomes Industry Veteran Zoila Hernandez as Director of Sales.
Source
https://finance.yahoo.com/news/siyata-mobile-welcomes-industry-veteran-120000679.html
March 22, 2023
Siyata Mobile Inc. (NASDAQ:SYTA)(NASDAQ:SYTAW), a global provider of innovative Push-to-Talk over Cellular ("PoC") and cellular signal booster solutions, today announced the hiring of Zoila Hernandez as Director of Sales.
Ms. Hernandez brings more than two decades of senior sales experience to her role at Siyata. Most recently, Ms. Hernandez served as Development Manager for AT&T FirstNet®, a nationwide wireless communications network that was designed and built specifically for first responders. Previously, she served in various senior sales roles throughout the AT&T organization, having joined that firm in 1998.
"We are excited to bring a veteran like Zoila to our team. Her deep product knowledge and experience with FirstNet will provide valuable insights as we continue to ramp sales of our PTT portfolio and specifically our game-changing SD7 rugged PoC solution," commented Siyata CEO Marc Seelenfreund. "We continue to announce new partnerships with some of the world's leading wireless carriers and are confident that we can continue to build substantial market share for the SD7 in the quarters ahead."
Management is seeing SD7 sales gaining traction across multiple verticals, including private security firms, police, emergency medical services, National Guard, school districts, hospitals/health clinics, a major theme park and others, as trials of the SD7 continue to convert into commercial deployments of the SD7 and its companion products, the VK7 vehicle kit and SD7 Rapid Kit. The Company expects to receive repeat and new orders as customers roll out the products across their various business units.
To date, the SD7 has been certified and approved for use with several North American carriers including FirstNet® and AT&T Inc., Verizon Communications Inc., United States Cellular Corporation, T-Mobile and Bell Mobility.
The SD7 enables push-to-talk communications for first responders and enterprise clients. It is a simple easy-to-use rugged Android based MCPTT solution with excellent sound quality that operates over the high bandwidth 4G LTE network, providing consistent connectivity across 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. The SD7 allows first responders as well as secondary support personnel to quickly connect and coordinate on unified public cellular networks in North American and international markets.
Users of the SD7 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 To Develop Collaborative Eye-Tracking Data Visualization System for Improving Work Efficiency.
Soure
https://finance.yahoo.com/news/wimi-develop-collaborative-eye-tracking-120000207.html
March 20, 2023
WiMi Hologram Cloud Inc. (NASDAQ: WIMI), a leading global Hologram Augmented Reality ("AR") Technology provider, today announced that it is developing a collaborative eye-tracking data visualization system. With the development of digital image processing technology and computer-supported collaborative work, eye-tracking technology enables the sharing of eye-tracking data and the perception of collaborative information and can be applied to collaborative interaction.
In collaborative interaction, text, voice, gesture, and other forms of interaction cannot accurately express the semantic meaning, so how to form an organic collaborative body from the visual attention resources of multiple users has also become a complex problem. To address this challenge, WiMi is now developing a collaborative eye-tracking data visualization system for multi-user interaction. By acquiring, computing, and transmitting the eye-tracking data of different users in a collaborative environment in real-time and by analyzing and visualizing the eye-tracking data, the system achieves collaborative perception of visual attention behavior and interaction intentions. And on this basis, the system's architecture and modules are designed.
WiMi applies eye-tracking data visualization technology to reduce semantic ambiguity and improve the quality and efficiency of collaborative interaction. Through a sharing mechanism, the system allows individual users to match other users' visual attention resources to their goals and intentions, thereby reducing their cognitive load and improving interaction efficiency and subjective experience.
To distribute the computational load generated by eye-tracking data recording and processing rationally and to maximize the number of users in a collaborative environment, WiMi's system will adopt a client/server architecture. The server is responsible for recording, processing, controlling, and forwarding the eye-tracking data from the client. The client is responsible for calculating, requesting, and visualizing the eye-tracking data. All clients communicate only with the server, and the clients do not communicate directly with each other but instead with each other by forwarding data through the server. The advantage of this architecture is that the server provides a uniform data forwarding model, and all client data is aggregated on the server side for consistent processing and distribution. The client-side supports the specific tasks of eye-tracking calibration and eye-tracking data calculation, which are then sent to the server.
WiMi's collaborative eye-tracking data visualization system can be used in many industries and fields, such as education, intelligent driving, medical image analysis, and training. Instead of voice interaction, it can effectively assist users in collaboration and division of labor and enhance group cognition. For example, in a classroom scenario, two eye-tracking systems record eye-movement data from two pairs of students and share it as a joint attention resource. For conceptual knowledge, the more joint attention resources there are, the better the learning outcomes.
In a car driving scenario, the passenger seat provides the driver with information about the road to compensate for blind spots. Therefore, recording the co-drivers point of view and presenting it to the driver visually can help them perceive the relevant road information and improve driving safety. In telemedicine scenarios, international medical consultations and surgical teams with members from different countries and regions can create language barriers. For this reason, a combination of verbal and eye-movement collaborative commands was used to enable other members to cooperate in the target selection task during the simulated surgery. In software engineering, using collaborative eye-tracking and visualization of eye-tracking data can facilitate collaboration and division of labor in collaborative work and improve the efficiency of code review.
In a collaborative work scenario, the eye-movement data is recorded by an eye-tracking device and displayed on a public screen, allowing users to see the searched area by collaborators, thus consciously avoiding repetitive and redundant searches and improving efficiency. WiMi analyzed the distribution of eye-movement data when multiple users completed collaborative search tasks and found that the distribution of eye-gaze points varied significantly between different interaction methods. Especially in the case of eye-movement data visualization and sharing, the distribution of eye-movement points of different users tended to compensate for each other, resulting in a clearer sense of division of labor and shorter task completion time, which can significantly improve the efficiency of collaborative work.
Eye tracking opens up a rich new experience of human-computer interaction. In the future, WiMi plans to combine eye-tracking technology with virtual reality to give users a more realistic and immersive experience. WiMi will capture accurate information about the user's visual attention, opening up new possibilities for creating more immersive virtual scenes. This application holds excellent promise in entertainment, shopping, and healthcare.
Siyata Announces Certification and Approval of Next Generation SD7 Solution by Telstra.
Source
https://finance.yahoo.com/news/siyata-announces-certification-approval-next-120000425.html
March 20, 2023
Australia's Largest Wireless Carrier Expected to Commence Sales of the SD7 in Q2 2023.
Siyata Mobile Inc. (NASDAQ:SYTA)(NASDAQ:SYTAW), a global provider of innovative Push-to-Talk over Cellular ("PoC") and cellular signal booster solutions, today announced the successful certification and approval of its mission-critical PoC (MCPTT) SD7 solution by Telstra, Australia's largest wireless carrier. Telstra is anticipated to begin sales of the SD7 in the second quarter of 2023 to its enterprise and government customers.
"We are pleased to work with Telstra on their planned sales of the SD7," commented Siyata CEO Marc Seelenfreund. "Telstra's network includes18.8 million retail mobile services, 3.8 million retail fixed bundles and standalone data services, and 960,000 retail fixed standalone voice services. We continue to believe that the SD7 is the most unique upgrade from legacy two-way radio devices currently on the market, offering expanded coverage, high functionality and low startup and operating costs."
The SD7 enables push-to-talk communications for first responders and enterprise clients. It is a simple easy-to-use rugged Android based MCPTT solution with excellent sound quality that operates over the high bandwidth 4G LTE network, providing consistent connectivity across 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 American and international markets.
Users of the SD7 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.
Explanation: Cloud computing
What is cloud computing?
https://www.mckinsey.com/featured-insights/mckinsey-explainers/what-is-cloud-computing
Cloud’s trillion-dollar prize is up for grabs
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/clouds-trillion-dollar-prize-is-up-for-grabs
Business-domain adoption
https://www.mckinsey.com/capabilities/mckinsey-digital/cloud/cloud-insights/business-domain-adoption
Foundational capabilities
https://www.mckinsey.com/capabilities/mckinsey-digital/cloud/cloud-insights/foundational-capabilities
Strategy and management
https://www.mckinsey.com/capabilities/mckinsey-digital/cloud/cloud-insights/strategy-and-management
Cloud computing | Nature Search Results
https://www.nature.com/search?q=cloud%20computing&order=relevance
Three actions CEOs can take to get value from cloud computing
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/three-actions-ceos-can-take-to-get-value-from-cloud-computing
Leaders and laggards in enterprise cloud infrastructure adoption
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/leaders-and-laggards-in-enterprise-cloud-infrastructure-adoption
Introducing the next-generation operating model
https://www.mckinsey.com/~/media/mckinsey/business%20functions/mckinsey%20digital/our%20insights/introducing%20the%20next-generation%20operating%20model/introducing-the-next-gen-operating-model.ashx
Infrastructure & Cloud
https://www.mckinsey.com/capabilities/mckinsey-digital/mckinsey-technology/overview/infrastructure-and-cloud
The cloud transformation engine
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/the-cloud-transformation-engine
Accelerating hybrid-cloud adoption in banking and securities
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/accelerating-hybrid-cloud-adoption-in-banking-and-securities
Unlocking value: Four lessons in cloud sourcing and consumption
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/unlocking-value-four-lessons-in-cloud-sourcing-and-consumption
How CIOs and CTOs can accelerate digital transformations through cloud platforms
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/how-cios-and-ctos-can-accelerate-digital-transformations-through-cloud-platforms
Making the cloud pay: How industrial companies can accelerate impact from the cloud
https://www.mckinsey.com/industries/industrials-and-electronics/our-insights/making-the-cloud-pay-how-industrial-companies-can-accelerate-impact-from-the-cloud
Cloud-migration opportunity: Business value grows, but missteps abound
https://www.mckinsey.com/industries/technology-media-and-telecommunications/our-insights/cloud-migration-opportunity-business-value-grows-but-missteps-abound
Security as code: The best (and maybe only) path to securing cloud applications and systems
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/security-as-code-the-best-and-maybe-only-path-to-securing-cloud-applications-and-systems
Six practical actions for building the cloud talent you need
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/six-practical-actions-for-building-the-cloud-talent-you-need
Debunking seven common myths about cloud
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/debunking-seven-common-myths-about-cloud
Capturing value in the cloud
https://www.mckinsey.com/capabilities/mckinsey-digital/cloud/overview
Cloud-driven business transformation—from IT to everywhere
https://www.mckinsey.com/capabilities/mckinsey-digital/cloud/overview/cloud-driven-business-transformation-from-it-to-everywhere
Making the right move to cloud
https://www.mckinsey.com/capabilities/mckinsey-digital/cloud/overview/making-the-right-move-to-cloud
From roadmap to migration: Cloud transformation in 6 months
https://www.mckinsey.com/capabilities/mckinsey-digital/cloud/overview/from-roadmap-to-migration-cloud-transformation-in-6-months
Cloud efficiency for a major utilities player
https://www.mckinsey.com/capabilities/mckinsey-digital/cloud/overview/cloud-efficiency-for-a-major-utilities-player
Managing a pharma company’s complex cloud transformation
https://www.mckinsey.com/capabilities/mckinsey-digital/cloud/overview/managing-a-pharma-companys-complex-cloud-transformation
Using the cloud to unlock a bank’s innovation
https://www.mckinsey.com/capabilities/mckinsey-digital/cloud/overview/using-the-cloud-to-unlock-a-banks-innovation
Cloud foundations: Ten commandments for faster—and more profitable—cloud migrations
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/cloud-foundations-ten-commandments-for-faster-and-more-profitable-cloud-migrations
Focusing on developer experience and embedded security for cloud
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/focusing-on-developer-experience-and-embedded-security-for-cloud
A cloud migration in wartime
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/a-cloud-migration-in-wartime
The FinOps way: How to avoid the pitfalls to realizing cloud’s value
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/the-finops-way-how-to-avoid-the-pitfalls-to-realizing-clouds-value
Migrating two banks to the cloud after a merger
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/migrating-two-banks-to-the-cloud-after-a-merger
Cloud Value Radio
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/cloud-value-radio
Projecting the global value of cloud: $3 trillion is up for grabs for companies that go beyond adoption
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/projecting-the-global-value-of-cloud-3-trillion-is-up-for-grabs-for-companies-that-go-beyond-adoption
It’s cloud time for boards—in seven charts
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/its-cloud-time-for-boards-in-seven-charts
The benefits of being a cloud trailblazer
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/the-benefits-of-being-a-cloud-trailblazer
The case for cloud in life sciences
https://www.mckinsey.com/industries/life-sciences/our-insights/the-case-for-cloud-in-life-sciences
Building a cloud-ready operating model for agility and resiliency
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/building-a-cloud-ready-operating-model-for-agility-and-resiliency
Explanation: Internet of Things
What is the Internet of Things?
https://www.mckinsey.com/featured-insights/mckinsey-explainers/what-is-the-internet-of-things
IoT value set to accelerate through 2030: Where and how to capture it
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/iot-value-set-to-accelerate-through-2030-where-and-how-to-capture-it
iot | Nature Search Results
https://www.nature.com/search?q=iot&journal=
Unlocking the potential of the Internet of Things
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/the-internet-of-things-the-value-of-digitizing-the-physical-world
Internet of Things - We help clients unlock value by digitizing the physical world
https://www.mckinsey.com/featured-insights/internet-of-things/how-we-help-clients
A manufacturer’s guide to scaling Industrial IoT
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/a-manufacturers-guide-to-generating-value-at-scale-with-industrial-iot
Leveraging Industrial IoT and advanced technologies for digital transformation
https://www.mckinsey.com/~/media/mckinsey/business%20functions/mckinsey%20digital/our%20insights/a%20manufacturers%20guide%20to%20generating%20value%20at%20scale%20with%20iiot/leveraging-industrial-iot-and-advanced-technologies-for-digital-transformation.pdf
Industrial IoT generates real value—if businesses overcome six myths
https://www.mckinsey.com/capabilities/operations/our-insights/industrial-iot-generates-real-value-if-businesses-overcome-six-myths
Coronavirus: Industrial IoT in challenging times
https://www.mckinsey.com/industries/industrials-and-electronics/our-insights/coronavirus-industrial-iot-in-challenging-times
IIoT platforms: The technology stack as value driver in industrial equipment and machinery
https://www.mckinsey.com/industries/industrials-and-electronics/our-insights/iiot-platforms-the-technology-stack-as-value-driver-in-industrial-equipment-and-machinery
Laying the foundation to accelerate the enterprise IoT journey
https://www.mckinsey.com/industries/technology-media-and-telecommunications/our-insights/laying-the-foundation-to-accelerate-the-enterprise-iot-journey
A scalable IIoT tech stack starts with business-focused use cases
https://www.mckinsey.com/capabilities/operations/our-insights/operations-blog/a-scalable-iiot-tech-stack-starts-with-business-focused-use-cases
Unlock value with an Industrial IoT technology stack that scales
https://www.mckinsey.com/capabilities/operations/our-insights/operations-blog/unlock-value-with-an-industrial-iot-technology-stack-that-scales
Tackling the IoT opportunity for commercial lines insurance
https://www.mckinsey.com/industries/financial-services/our-insights/tackling-the-iot-opportunity-for-commercial-lines-insurance
Digital ecosystems for insurers: Opportunities through the Internet of Things
https://www.mckinsey.com/industries/financial-services/our-insights/digital-ecosystems-for-insurers-opportunities-through-the-internet-of-things
The Internet of Things: How to capture the value of IoT
https://www.mckinsey.com/featured-insights/internet-of-things/our-insights/the-internet-of-things-how-to-capture-the-value-of-iot
Creating a successful Internet of Things data marketplace
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/creating-a-successful-internet-of-things-data-marketplace
An executive's guide to the Internet of Things
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/an-executives-guide-to-the-internet-of-things
Making connections: An industry perspective on the Internet of Things
https://www.mckinsey.com/industries/semiconductors/our-insights/making-connections-an-industry-perspective-on-the-internet-of-things
How the Internet of Things will reshape future production systems
https://www.mckinsey.com/capabilities/operations/our-insights/how-the-internet-of-things-will-reshape-future-production-systems
Making sense of Internet of Things platforms
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/making-sense-of-internet-of-things-platforms
Six ways CEOs can promote cybersecurity in the IoT age
https://www.mckinsey.com/featured-insights/internet-of-things/our-insights/six-ways-ceos-can-promote-cybersecurity-in-the-iot-age
Taking the pulse of enterprise IoT
https://www.mckinsey.com/featured-insights/internet-of-things/our-insights/taking-the-pulse-of-enterprise-iot
Video meets the Internet of Things
https://www.mckinsey.com/industries/technology-media-and-telecommunications/our-insights/video-meets-the-internet-of-things
The IoT as a growth driver
https://www.mckinsey.com/capabilities/mckinsey-digital/our-insights/the-iot-as-a-growth-driver
From defense to offense: Digital B2B services in the next normal
https://www.mckinsey.com/capabilities/operations/our-insights/from-defense-to-offense-digital-b2b-services-in-the-next-normal
Converge IT and OT to turbocharge business operations’ scaling power
https://www.mckinsey.com/capabilities/operations/our-insights/converge-it-and-ot-to-turbocharge-business-operations-scaling-power
IoT comes of age
https://www.mckinsey.com/capabilities/quantumblack/our-insights/iot-comes-of-age
Data storage mechanism of industrial IoT based on LRC sharding blockchain
https://www.nature.com/articles/s41598-023-29917-x
Smart textile lighting/display system with multifunctional fibre devices for large scale smart home and IoT applications
https://www.nature.com/articles/s41467-022-28459-6
Research And Development of 6G Tech: WIMI Stimulates 6G Technical Innovation.
Source
https://www.newstrail.com/research-and-development-of-6g-tech-wimi-stimulates-6g-technical-innovation/
March 16, 2023
From the perspective of the development process of 5G, the role of the government, enterprises and research institutions seems to be working well. We need to make full use of the advantages of a super-large market and a complete industrial system, focus on enterprises, universities, research and application, strengthen international cooperation, and speed up 6G research and development.
6G networks are a new generation of future communication technologies, which will provide 10 to 100 times more performance improvements over 5G. In the 6G era, downloads will be faster, and 10 types of HD videos can be downloaded in one second. In other words, if the 2G network is like a bull cart, the 3G network is like a bicycle, the 4G network rk like a car, the 5G network is like a high-speed train, then the 6G network like is an airplane.
It not only has super-fast data transmission capability but also has more powerful connectivity and reliability. This technological revolution will change the way we use the Internet and mobile devices, and create more possibilities for areas like AI and the Internet of Things. In the future, you can enjoy seamless connection and ultimate experience anywhere.
In 2040, the global 6G market size exceeded $340 billion
6G has many key technologies, and the whole industry is currently exploring them. According to market research firm Market Research Future, the global 6G market will exceed $340 billion in 2040 and grow at a compound annual growth rate of 58.1%. It believes that China will be one of the largest 6G markets in the world and that China will also be an early adopter of 6G technology.
WIMI started the 6G-related technology innovation
According to the data, WIMI Hologram Cloud (NASDAQ: WIMI), a benchmark enterprise, has been working in the 5G field for many years, enriching the application of 5G technology, and strengthening the innovation of “5G +” integrated application technology. At the same time, in the field of the new generation of information technology, with artificial intelligence, blockchain, and other underlying core technologies as the traction, we will vigorously develop augmented reality and other integrated innovative technologies, tackle batches of underlying core technologies and support the expansion of characteristic industrial clusters.
In the current market background, the 6G field is also one of the key business areas of WIMI. The research on 6G technology is in the pre-planning and research stage, and WIMI continues to carry out the research and verification of the application of 6G converged communication technology. It is understood that WIMI uses a 6G high-speed broadband network to provide basic support, combined with its independent development of multi-dimensional holographic vision mapping technology, and the development of a 6G holographic spatial information system. The system can be applied in the fields, such as surveying and mapping, communication, computing, navigation, remote sensing, artificial intelligence, and so on, for the construction of ubiquitous mobile communication networks in air, space, earth, and ocean.
It is worth noting that WIMI’s 6G holographic spatial information system connects not only people, but also spatial maps, autonomous vehicles, robotic agents, and computing resources. In virtual reality, with the low latency of 6G, users can interact spatially in an immersive environment in real-time. In terms of holographic remote presentation, 6G has enough bandwidth to digitally transmit geographic information to all human senses to provide an immersive remote experience.
In the coming 6G era, WIMI combines artificial intelligence, big data, and other technologies to realize the organic integration and multi-directional interaction between the physical world and the digital world. The scene established by the 6G holographic spatial information system uses precise display equipment and exquisite picture content to bring users a certain sense of visual impact. At the same time, it provides a true experience of virtual and real integration, and the geographic information can be accurately presented in a multi-dimensional holographic way without leaving home.
It can be said that, as a listed company in the US market, WIMI Hologram Cloud (NASDAQ: WIMI) is constantly improving its independent innovation ability and core competitiveness, accelerating the implementation of the beautiful vision of “virtual and real integration, extending time and space, face-to-face communication”, and striving to become a science and innovation enterprise with international influence.
WIMI.US develops an intelligent model LMM-VFC that supports edge migration of the virtual function chain of the next generation Internet of Things.
Source
https://finance.sina.com.cn/tech/roll/2023-03-15/doc-imykxpqz4865684.shtml
March 15, 2023
We are striding into the era of the Internet of Everything, and the development of the Internet of Things (IoT, Internet of Things) is accumulating explosive development with the advancement of science and technology and the rapid development of the Internet. The development of next-generation IoT sensing devices for the Internet of Things, along with advancements in their low-power computing capabilities and high-speed networking, has led to the introduction of edge computing.
The real-time generation of massive data will become the norm in the future society. The gradual intelligence of the equipment enables the equipment itself to have the ability to process data in real time. In the edge cloud environment, services can generate and use data locally without involving cloud computing infrastructure. Improve data processing efficiency and feedback time. WIMI (NASDAQ: WIMI) proposes to propose and evaluate an intelligent migration model based on this, which can support virtual function chains at the edge of the network based on the Internet of Things.
It is reported that WIMI (NASDAQ: WIMI) proposed an edge LMM-VFC (Virtual function chain) model, which can enable complex AI models to be executed on heterogeneous edge networks, combined with real-time QoS (Quality of Service) that triggers real-time migration. ) monitoring model, the WIMI Hologram LMM-VFC model is enhanced through the migration model.
According to the data, WIMI Holographic LMM-VFC model is a novel distributed framework, which is based on the concept of virtual function chain (VFC) of software-defined network, and supports real-time reasoning of edge AI analysis. Edge Learning Services provides support to monitor, evaluate and predict the Quality of Service (QoS) of supported services. In this model, AI analytics is decomposed into a set of virtual functions (VFs), which can be deployed on different edge devices. Using these VFs, it is possible to create a VFC that processes streaming data in a distributed manner. VFO (Virtual Function Orchestrator) is responsible for deploying VFC. VFC deploys multiple modules through the framework, optimizes design services, monitors their QoS indicators and fine-tunes their configurations to avoid failures.
More specifically, the calculation engine is responsible for proposing optimal settings for the VFC, while the edge learning service monitors the performance of edge devices and proposes possible changes. The LMM-VFC model uses this to build an intelligent model for edge migration, optimize link capabilities, and support the development of next-generation Internet of Things technologies.
In addition, WIMI's (NASDAQ: WIMI) edge LMM-VFC model supports machine learning and proposes a model based on reinforcement learning to determine the best strategy for service migration. The migration problem is usually formulated as a sequential decision problem aimed at minimizing the overall response time. The calculation migration scheme based on the reinforcement learning strategy can learn the optimal strategy of the dynamic environment in real time to ensure low computing delay.
And the WIMI holographic edge LMM-VFC model proposes a user classification mechanism based on user movement patterns to reduce decision-making complexity. A reinforcement learning-based framework is then introduced to make service migration decisions in real-time in dynamic environments. Through data-driven experiments, the efficacy of WIMI holographic edge LMM-VFC model in reducing the average delay of the system is proved. The WIMI Holographic Edge LMM-VFC model is based on the IoT mobile edge/cloud computing offloading framework for lightweight process migration. The framework does not require application binary files on the edge server, so native applications can be migrated seamlessly. The WIMI holographic edge LMM-VFC model framework shows great potential in resource-intensive IoT application processing in mobile edge/cloud computing.
In an edge cloud environment, services can generate and consume data locally without involving cloud computing infrastructure. Aiming at the problem of low computing resources of IoT nodes, WIMI proposes a virtual function chain as an intelligent distribution LMM-VFC model to maximize the use of edge computing capabilities to support demanding services. It is an intelligent migration model capable of supporting virtual function chains. According to this model, edge migration can support individual functions of the virtual function chain.
First, if a virtual function fails unexpectedly, it can be automatically repaired through cold migration.
Second, a quality-of-service monitoring model can trigger live migration, aiming to avoid overloading edge devices. An evaluation study of the proposed model demonstrates its ability to improve the robustness of edge-based services on low-power IoT devices.
The Internet of Things (IoT) is a rapidly growing field with a wide range of applications in industries such as healthcare, transportation, and agriculture. As the number of IoT devices and their associated data continues to grow, there is an increasing need for efficient and intelligent models to manage and process this data. One of the key challenges of IoT is to support edge migration of virtual function chains.
Edge migration of WIMI Holographic Edge LMM-VFC model involves moving processing tasks from centralized servers to edge devices closer to data sources, such as routers or gateways. Reduce bandwidth requirements and enable real-time processing of data. The LMM-VFC model can implement an intelligent model that supports VFC edge migration in next-generation IoT. The model will leverage machine learning to optimize VFC migration decisions based on factors such as network latency, available resources, and data privacy requirements.
WIMI's (NASDAQ: WIMI) edge LMM-VFC model can continuously monitor network conditions and data flow, and decide in real time which functions should be migrated to the edge and which functions should be kept on the centralized server. This can be achieved through a combination of rule-based and machine learning algorithms that analyze data from a variety of sources, including network performance metrics, user behavior patterns and data usage statistics.
Overall, an intelligent model that supports edge migration of virtual function chains in next-generation IoT will be a powerful tool to manage the ever-increasing volume of data generated by IoT devices. By leveraging the latest advances in artificial intelligence and machine learning, the model can help organizations optimize their data processing workflows and increase the efficiency and effectiveness of their IoT deployments.
WiMi Develops Digital Twin Visualization and Interaction System to Boost Intelligent Industrial Transformation.
Source
https://finance.yahoo.com/news/wimi-develops-digital-twin-visualization-120000544.html
March 14, 2023
WiMi Hologram Cloud Inc. (NASDAQ: WIMI), a leading global Hologram Augmented Reality ("AR") Technology provider, today announced the development of its digital twin visualization and interaction system by fusing digital twin, artificial intelligence, data visualization, and human-computer interaction technologies.
WiMi focuses on the multi-source data of the digital twin and realizes visual interaction in the digital twin system. With the help of graphics and visualization technology, the system processes the data information of the digital twin, combines the real-time rendering of 3D scenes and data modeling, visualizes the data from multiple sources, and realizes real-time data visualization and interaction. The essence of data visualization is visual dialogue: transferring the physical world as images and data to the digital world for representation, analyzing, and extrapolating the logic of massive amounts of data to enhance the readability and flexibility of data results. Data visualization can assist managers in discovering the patterns and values behind the data, helping to make intelligent decisions.
Firstly, based on computer graphics and artificial intelligence, the system constructs an identical corresponding model in the digital world for real-world physical objects and dynamically simulates, monitors, analyzes, and controls them through digital means.
Secondly, the system establishes a visualization bridge between the real and the digital twin space by covering the full range of data processing, visualization models, and visualization applications. A proper digital twin system is realized by integrating big data processing techniques such as sensing, analysis, and decision-making.
Thirdly, interaction and collaboration are critical aspects of the digital twin system. The virtual entity monitors the state of the physical entity through sensor data to achieve real-time dynamic mapping and then verifies the control effect through simulation in the virtual space and realizes the operation of the physical entity through the control process.
WiMi's digital twin visualization interactive system efficiently analyzes, interprets, and provides valuable information by combining data analysis with graphic technology. It presents the massive amount of data from the Internet of Everything era to managers with greater efficiency, lower cost, and better results. The system empowers intelligent decision-making and helps companies to achieve product innovation and optimal allocation of resources. At the same time, WiMi's system, with its intelligent interaction and multi-party collaborative management mechanism, realizes the interplay and interaction between the real and the digital space intelligently and efficiently.
In the digital era of Internet of Everything, the demand for intelligent perception, interaction, visual display, and holographic experience has pushed people to build a digital twin world outside of the real world. WiMi's system helps the natural world interact with the digital world, allowing the optical lens of data to shine into the real world and empowering more industries to achieve intelligent and digital transformation.
WIMI.US develops a hybrid structure of a distributed image storage protocol for image storage.
Source
https://cj.sina.com.cn/articles/view/7651844612/1c815e20402001g10e?from=finance
March 13, 2023
In recent years, with the rapid development of blockchain technology applications, more and more application scenarios have begun to use distributed ledgers to store and verify data. In terms of image storage, traditional centralized storage methods may have some security and reliability issues, so the distributed pool blockchain protocol can be an effective solution. WIMI (NASDAQ: WIMI) has developed a Distributed Image Storage Protocol (DISP) for image storage, and uses the Interplanetary File System (IPFS) to effectively improve blockchain storage space and reduce computing costs.
The distributed pool blockchain protocol can divide the stored data into multiple small blocks and distribute these small blocks on different nodes to realize distributed storage and backup. At the same time, the protocol can also use blockchain technology to ensure data security and credibility, making the stored image data difficult to be tampered with or lost. However, since image data is usually relatively large, storing it in multiple small blocks on the blockchain may result in inefficient storage and transmission.
WIMI proposes a blockchain distributed storage protocol based on the pooling algorithm and its inverse process, combined with the IPFS (InterPlanetary File System) protocol to store large image data, and uses the distributed pool blockchain protocol to manage and Validate blocks of data stored in IPFS. The IPFS protocol can divide image data into multiple small blocks and store them on different nodes in the network in a distributed manner to achieve efficient storage and transmission. The distributed pool blockchain protocol can ensure the integrity and credibility of the data by performing hash operations and blockchain storage on the data blocks stored in IPFS.
The WIMI Holographic DISP protocol is designed to be optional and non-mandatory. Users who do not accept the DISP protocol can still use the traditional full redundant storage method. Users who accept the agreement can enjoy the benefits of saving space without compromising security performance. The DISP protocol changes the fully redundant storage relative to individuals to community-level full redundancy, that is, the data stored in each node of a community has no redundancy. In DISP, distributed storage ensures that all data will not be lost when a small number of nodes are attacked or fails, thereby enhancing the performance of data security. The distributed pool algorithm reduces the data redundancy of distributed storage and greatly saves storage space.
WIMI (NASDAQ: WIMI) DISP protocol, in the preprocessing stage before implementing the distributed pooling algorithm, first divides the original image into several pooling areas according to the shape of the pooling kernel to form a group of pools to be processed area. The image can then be divided into several parts by a distributed pooling algorithm and stored in multiple nodes.
Addresses that accept the protocol will be collected to form different communities, and the number of nodes in each community is determined by the number of pooled images obtained after the decomposition algorithm. Under a certain compression ratio, each piece of data is still identifiable and can be represented losslessly by compressed sensing or super-resolution. If all the data fragments in the community are collected, the original data can be restored losslessly through the algorithmic reverse operation. The data saved by each node is different from the data of other nodes in the community, otherwise, the node will be divided into another community. Every node in the community can see the whole picture of the data. If the corresponding data fragments stored by each node in the community are collected together, the source data can be recovered without loss after the evidence phase is invoked.
The implementation steps of WIMI holographic DISP protocol are as follows:
Image segmentation:
Divide the image data to be stored into multiple small blocks, and the size of each small block can be adjusted as needed.
IPFS storage:
Store the divided image data in the IPFS network, and use the IPFS protocol to realize distributed storage and backup.
Blockchain verification:
Use blockchain technology to manage and verify data blocks stored in IPFS, thereby ensuring data integrity and credibility. Specifically, each data block has a hash value, which can be stored on the blockchain, and the blockchain is used to record the modification history of the data block.
Accessibility control:
Use smart contracts to implement accessibility control over image data, such as restricting certain users or applications from accessing certain image data.
WIMI (NASDAQ: WIMI) DISP protocol can realize efficient, safe and reliable image storage. Compared with the traditional blockchain storage method, this protocol divides the image data into multiple small blocks and stores them in IPFS, thus effectively reducing the storage space occupied by the blockchain. At the same time, blockchain technology is used to verify the integrity and credibility of data blocks, so that the stored image data is not easy to be tampered with or lost. More efficient, safer, and more reliable image storage can be achieved using a hybrid scheme. In order to make full use of their respective advantages, so as to achieve better performance and effect.
WIMI develops a target tracking algorithm system based on multi-feature fusion.
Source
https://cj.sina.com.cn/articles/view/2311077472/89c03e60020023ogi
March 13, 2023
With the continuous development of computer technology and artificial intelligence, many new forms of human-computer interaction have emerged. Human motion tracking and recognition based on computer vision is becoming a new generation of human-computer interaction technology. In practical application scenarios, human motion recognition and tracking put forward higher requirements for algorithm processing speed, accuracy and hardware conditions.
Due to the complexity of human motion, traditional 3D recognition and detection methods for depth images are not very accurate and reliable. In addition, a single feature cannot adapt to the dynamic changes of the scene, and the target tracking algorithm based on a single feature is difficult to obtain robust tracking results. If multiple features are fused and applied to the tracking algorithm, the complementarity between different features can be used to better adapt to scene changes and obtain robust tracking results.
To this end, WIMI has developed a target tracking algorithm system based on multi-feature fusion. It detects, extracts, recognizes, and tracks human moving objects in images and video sequences, and obtains relevant parameters of moving objects, such as position, speed, and trajectory, and then processes them to achieve higher-level tasks.
WIMI Hologram's target tracking algorithm system based on multi-feature fusion recognizes and analyzes the position and movement of the human body through image processing and analysis technology, machine learning and pattern recognition. Includes recognition, classification, and visual processing of human objects, as well as processing-related position detection, motion analysis, and behavioral understanding. The purpose of target tracking is to accurately identify the region of interest of the target in a continuous image sequence, and obtain motion data such as target velocity and trajectory, and provide a basis for solving various subsequent advanced vision problems such as target behavior analysis and target recognition. Capture human body motion data and extract features, then integrate the extracted human body images into mixed reality, combine human body images with mixed reality, and obtain human body images in mixed reality.
With the continuous development of artificial intelligence and virtual reality technology, the human-computer interaction system has become the current focus of attention. Human motion recognition and tracking is an important way of human-computer interaction, and it has broad application prospects in the fields of games, intelligent robots, and smart homes.
WIMI (NASDAQ: WIMI) develops a virtual digital human gesture generation algorithm based on application scenarios.
Source
https://cj.sina.com.cn/articles/view/7651844612/1c815e20402001g024?from=finance
March 10, 2023
With the blessing of virtual technology, big data, artificial intelligence and other technologies, virtual digital humans are constantly evolving, with increasingly realistic images, wider application ranges, and greater commercial value. "Digital Human In-depth Industry Report" predicts that by 2030, the overall market size of my country's virtual digital human will reach 270 billion yuan.
A virtual digital human is a composite of human characteristics such as appearance, performance, and interaction, based on technologies such as computer graphics, graphics rendering, motion capture, deep learning, and speech synthesis. It has human geometric and behavioral characteristics . From production to digitization of appearance, virtual digital human gradually deepens into interactive behavior and intellectualization of thought. It not only has human appearance and behavior, but also has human thought, can recognize the external environment, and interact naturally with people.
Gesture, as an important interaction method, has been widely used in car navigation, virtual simulation and other fields. As a new generation of interactive platform, virtual digital human can integrate other interactive technologies to provide multi-modal interactive experience. By establishing a mapping between the abstract communication intention and the physical realization of gestures, and generating rich gestures, the emotional expression of virtual humans can be enriched.
It is understood that WIMI Hologram (NASDAQ: WIMI) is developing a virtual digital human gesture generation algorithm system based on application scenarios, which allows virtual digital human to produce different movements through changes in the environment. Not every sentence of the virtual digital human must be accompanied by gestures, and the gestures of the same sentence in different scenarios will be different. Therefore, the application scenarios of the virtual digital human need to be deeply designed.
The abstract communication intention is processed by natural language, and then the text is mapped to the classification of gesture semantics to build a semantic classification model. Firstly, it is judged whether gestures are needed, because gestures are used to assist and enhance semantic expression, and when it is uncertain whether gestures are needed, it tends to give the result that gestures are not needed. Then make statistics on the corpus of different scenes constructed, analyze the patterns of all actions in the corpus and their corresponding relationship with semantics, sort out the semantic actions in the corpus, and carry out emotional, gesture metaphor semantics, original text and gesture quantitative description language The mapping relationship, and build a classification model.
The mapping process from semantics to quantitative descriptions of gestures is a one-to-many classification problem. For different application scenarios, different corpora are used for training. For multiple gestures under the same metaphorical gesture semantic subdivision category, natural language processing technology is used to semantically match the gesture text with the input text, and the best matching gesture is selected. For the purpose of communication, through natural language understanding, the classification of the text to emotion and gesture metaphor semantics, and the association relationship with the original text are constructed, and finally a virtual digital human gesture is generated.
Gesture interaction of virtual digital human greatly enhances its emotional expression. Based on the automatic generation algorithm of virtual digital human gestures based on application scenarios, WIMI uses the semantic classification method of metaphorical gestures to construct a quantitative description language for gestures, provides a quantitative method for the computable semantics of gestures, and proposes different application scenarios. The construction method of emotional corpus and the construction of emotional corpus provide a data basis for the research of virtual human gesture generation algorithm.
Generally speaking, the theory and technology of virtual digital human are becoming more and more mature, and the scope of application is also expanding. Virtual digital humans have been applied in many industries such as finance, transportation, logistics, retail, manufacturing, etc., helping different industries realize digital transformation.
WIMI develops a hybrid enhanced intelligent system based on human-computer collaboration, moving towards deep human-computer integration.
Source
https://t.cj.sina.com.cn/articles/view/1765776051/693f9ab3020010vm8?from=tech
March 9, 2023
In recent years, with the improvement of computer data collection, storage and computing capabilities, artificial intelligence (AI) has developed rapidly, which is profoundly affecting and changing our lives and shaping the future. Artificial intelligence is profoundly changing the relationship and interaction patterns between humans and between humans and the natural environment and society. It helps human beings solve various high complexity and uncertainty problems in various fields of engineering technology, scientific research and social activities. It brings many disruptive innovations in many fields.
The long-term goal of artificial intelligence is to make machines learn and think like humans. The most important ability of humans is to learn new things and have self-adaptation and knowledge reasoning abilities beyond experience. Introduce human cognitive abilities or human-like cognitive models into artificial intelligence systems to develop a new form of artificial intelligence, namely hybrid augmented intelligence.
The R&D team of WIMI (NASDAQ: WIMI) is developing a hybrid enhanced intelligence system based on human-computer collaboration, which combines human perception and cognitive capabilities with computer computing and data storage capabilities to build a hybrid system based on human-computer collaboration. Enhance the intelligent system, which will improve the decision-making ability, cognitive complexity and adaptability of the artificial intelligence system to deal with problems.
A hybrid augmented intelligence system based on human-computer collaboration covers the functions of a computable interaction model, including dynamic reconstruction and optimization, autonomy and adaptability during interaction, interactive cognitive reasoning, and evaluation, etc., and can effectively realize human-computer communication. It integrates machine learning, knowledge base and human decision making. It uses machine learning to learn a model from training data, or a small number of samples, and uses that model to make predictions on new data. When confidence is low, humans intervene to make judgments. The confidence estimate or the state of the computer's cognitive load will determine whether the prediction requires manual adjustment or human intervention, and the system's knowledge base will be automatically updated. Human predictions and interventions in algorithms improve the accuracy and credibility of the system.
The introduction of human intelligence into the artificial intelligence system can realize the tight coupling between the advanced cognitive mechanism and the machine intelligence system. The two adapt and cooperate with each other to form two-way information exchange and control. By integrating human perception, cognitive ability, machine computing and storage capabilities, and then processing large-scale, incomplete and unstructured knowledge base information, avoiding the risk of loss of control brought about by artificial intelligence technology.
Integrating the perceptual advantages of computers in processing large-scale data and the cognitive advantages of human reasoning and decision-making. With computer computing as the core, enhance people's understanding of complex data, use human reasoning and auxiliary decision-making support to enhance the computer's cognitive learning ability, and implement information perception, understanding, reasoning, prediction, decision-making and learning process.
Relying on artificial intelligence algorithms for rapid identification and understanding, and maximizing the computing potential of "machines", and relying on timely and appropriate artificial reasoning, prediction and decision-making, it can effectively enhance the accuracy and reliability of system cognition, and maximize the It has great potential to give full play to human cognitive advantages, greatly improve the ability of situation estimation, and provide solutions for large-scale cognitive task coordination. Human-machine collaborative decision-making may lead to more valuable solutions and innovations.
In the future, WIMI will continue to develop cognitive reasoning, emotional interaction and auxiliary decision-making hybrid enhanced intelligent applications of human-machine collaboration. Its hybrid enhanced intelligence system based on human-machine collaboration will have a wide range of applications in the fields of game entertainment, advertising media, enterprise management, and smart cities. For example, in the field of game entertainment, technologies such as augmented reality and virtual reality are used to enhance human participation by superimposing the real scene of the user and the virtual scene of the game, which promotes the development of the game industry. In the advertising media industry, social platforms and shopping websites can introduce human-machine collaborative hybrid enhanced intelligence systems to push relevant information to users more effectively and accurately through personal preference analysis.
In the field of enterprise management, the human-computer collaborative hybrid enhanced intelligent system can create a human-computer interaction environment that supports learning, understanding, reasoning and decision-making, which can greatly improve the risk management capabilities of modern enterprises, and provide application solutions for large-scale workflow coordination solutions to enhance its value creation and enhance corporate competitiveness.
Ubiquitous computing and intelligent machines are driving people to seek new artificial intelligence models and implementation forms, and hybrid augmented intelligence is one of the important directions of artificial intelligence development. Human-machine cooperation and mutual complementarity can maximize the potential of artificial intelligence systems at the current level of technology and move towards deep human-machine integration, which will bring valuable creativity and improve the competitiveness of humans and machines. Intelligent machines have become intimate companions of human beings, and the interaction and collaboration between humans and intelligent machines will become the norm in our future society.
WiMi Develops Edge Computing-Based Holographic Face Recognition AI Chip System for Property Management.
Source
https://finance.yahoo.com/news/wimi-develops-edge-computing-based-130000159.html
March 9, 2023
WiMi Hologram Cloud Inc. (NASDAQ: WIMI), a leading global Hologram Augmented Reality ("AR") Technology provider, today announced the development of an AI chip system for holographic face recognition based on edge computing. The system places recognition, acquisition, and analysis at the terminal, effectively improving the optimization of algorithms for one hand and allowing the establishment of a private domain to protect data security for another effectively. This system can be used in some key departments and enterprises or in controlling high-end factories and the security management of industrial parks, office buildings, flats, etc. It is easy and safe to deploy with high efficiency.
The system is different from traditional face recognition and ID match. It enables simultaneous face-tracking acquisition and face attribute analysis feedback results.
It acquires holographic high-density face data of the subject at the front end:
- attributes,
- appearance,
- features,
- collection time,
- geographical location, and
- other essential information.
These features can be identified and distinguished. WiMi's system combines edge computing, AI arithmetic acceleration, deep learning algorithms, holographic data gain technology, convolutional neural networks, face recognition, and acquisition to merge and upgrade the existing security video system.
WiMi's system, which uses a time window for the sampling period, can also be set up according to specific targets, such as critical positions, time on duty, and geographic space. If multiple samples are in a sampling period, the system will select the best sample as the last sampled information. The system will recognize all faces if multiple faces appear in a sampling frame. For completely unrecognizable looks, the system adopts an ignore-and-remain strategy. It focuses on capturing them again in subsequent frames or other surveillance cameras until they are recognized, thus ensuring full recognition and data integrity and keeping the area safe.
This system can provide structured primary data for security management and production safety by matching high-density dynamic personnel information collection to surveillance video of key locations.
The system includes
- a video access port,
- a hologram decoding and frame extraction module,
- a hologram optimization module,
- an edge computing and algorithm acceleration module,
- a face acquisition and analysis module,
- central control module, and
- a data storage and notification module.
Video access port interfaces with existing surveillance video. Hologram decoding and frame extraction module deals with the frames according to the central control module. The hologram optimization module performs image acquisition and analysis in the extracted frames, image optimization acceleration of the sampled frames, and sends feedback to the central control module. If information gets lost, new instructions will be issued by the central control module to reproduce information. With ARM architecture, the edge computing and algorithm acceleration module contains core computing units.
Embedded with multi-layer CNNs, the computing unit performs algorithmic operations on low and high parallel computing performance. The face acquisition and analysis module collects recognition, segmentation, and extraction data by combining photos, geographic information, and time information. The collected face information is analyzed for attributes, gender, age, ethnicity, masks, and glasses. The central control module realizes the sampling process for management, integrated control, and management of other modules. The data storage and notification module stores the collected personal information locally and can notify external systems according to the information level.
The system's front end accesses the video through a dynamic holographic face recognition algorithm based on edge computing, decodes the video holographically, and detects, tracks, captures, and de-emphasizes the faces in the picture. The system uses feature values as information identifiers to build information on pedestrians, completing the collection of information on people and enabling private domain management to improve information security levels. In addition, the system is easy to deploy. It can be deployed in various ways, including external, rack-mounted, and mobile.
The device can be directly connected to existing HD network cameras. It can be used directly on the front end to complete part of the video structuring work, obtain high-quality face-structured data, and improve the speed and calculation efficiency of back-end intelligent identification and analysis, making full use of the existing stock of cameras. Existing unstructured video can be directly upgraded to smart structured data through external attachments.
WiMi's edge computing-based holographic face recognition AI chip system can be used in various essential situations as it can perform high-density dynamic holographic face capture in complex environments. The system uses a digital camera with an intelligent front-end for face information collection and can meet a wide range of requirements for security information collection.
WIMI (NASDAQ: WIMI) develops a new layered fog architecture for IoT sensing and actuation as a service SAaaS.
Source
https://finance.sina.com.cn/stock/relnews/us/2023-03-08/doc-imykcmnf0346099.shtml
March 8, 2023
In recent years, the development of the Internet and technology has led to the proliferation of Internet of Things devices, and the development of the Internet of Things and artificial intelligence will bring data worth hundreds of millions. Its widely distributed sensors, smart terminals, etc. are generating massive amounts of data every moment, and massive amounts of data are being generated at a rapid rate. Cloud storage is under increasing pressure in terms of data calculation, storage and management, and cloud servers may take time to process data, because cloud servers are used as a centralized host to store and calculate data, and are usually located far away from IoT terminals . This creates fog computing, which assumes some of the functions of cloud computing services, reduces the burden on cloud services and improves the efficiency of service feedback and response.
Fog computing is a decentralized computing structure that brings processing, storage, and intelligent control close to data devices. This flexible structure extends cloud computing services to the edge of the network. As a result, distances between networks are shortened, efficiency is increased, and the time required for transmission to the cloud for processing, analysis, and storage is reduced.
At present, there are still bottlenecks in traditional fog/edge computing, such as fog node overload, fog node failure, etc., which make the generation of driving commands delayed or the feedback invalid. WIMI (NASDAQ: WIMI) has developed a new fog architecture for IoT Sensing and Actuation as a Service (SAaaS.Sensing and Actuation as a Service), which is a scalable and fault-resistant layered fog architecture. The main goal of this architecture is to enhance the SAaaS performance of IoT by introducing a fault-resistant layer of fog nodes between cloud and IoT devices, which is called a multi-layer/hierarchical structure.
WIMI's new layered fog architecture for IoT sensing and actuation as a service (SAaaS), which can be called sensor and actuator service layered fog delivery, has higher failure resistance efficiency. The task of the failed node is redistributed to the nearest active node to maintain the network connection. And track the user's pre-specified instructions, which are closer to the end user's IoT device terminal to speed up the generation of driving commands. In case of overload, such nodes can offload their monitoring responsibilities to their parent nodes.
WIMI's (NASDAQ:WIMI) new fog architecture for IoT SAaaS can operate under diverse ecosystems and properly manage observation and actuation requests. Additionally, the infrastructure is highly virtualized to allow multiple users to use the same physical layer components simultaneously, reducing service costs. Leverage fog computing to handle some IoT and cloud tasks that are geographically closer to the data source, rather than relying entirely on remote cloud data centers. Due to the large amount of sensing data generated by IoT sensors, fog nodes may be overloaded. WIMI’s new fog architecture for IoT SAaaS avoids delays in driving command generation, monitors user-specified conditions in the fog layer, and allows Each fog node offloads monitoring to its parent when it is overloaded to reduce action delays in case of fog node overload.
WIMI establishes multi-layer fog nodes between the cloud and IoT devices in SAaaS, which can realize a dynamic fault feedback scheme, by reassigning the tasks of the faulty fog nodes to the nearest connected fog nodes in the same layer or to the faulty nodes The parent node to avoid failures in information sending and feedback.
WIMI's (NASDAQ: WIMI ) new fog architecture for IoT SAaaS is evaluated by using a fog simulator to test the performance of transmission with/without layered fog in different scenarios (number of users, sensors, actuators, and areas). Sense and Execution as a Service (SAaaS) and with/without layered fog (failure redistribution, pre-specified situations in fog nodes and offloading) were compared in terms of computation/communication latency and number of lost messages for observation and actuation commands, at occurrence Failure redistribution prevents loss of messages and maintains network connectivity. It greatly improves the security, stability and response rate of fog applications.
In the future, although cloud computing has "infinite" computing and storage resource pools, cloud data centers are often centralized and far away from terminal devices. When faced with a large number of widely distributed terminal devices and massive data collected, Cloud computing inevitably encounters bottlenecks. Fog computing, with its wide geographical distribution, large-scale sensor network with a large number of network nodes, support for high mobility and real-time interaction, as well as diversified software and hardware devices and cloud online analysis, has been rapidly adopted by the Internet of Things and artificial intelligence applications.
Accepted and widely used by many enterprises, WIMI hologram is used in IoT SAaaS. Through the establishment of multi-layer fog nodes through technical means, the security, stability and timeliness of fog computing have also been significantly improved. It will be applied to M2M (Machine to Machine), human-machine collaboration, Internet of Things industry, smart grid, smart transportation, smart medical care, and unmanned driving are industries that require extremely high information feedback, and have a wide market space.