With the help of the Internet and cloud computing.
The combination of artificial intelligence and wearable devices can be divided into two categories. One is that wearable devices monitor various human and environmental data through the network and upload them to the cloud, and the artificial intelligence chip in the cloud analyzes them and sends back corresponding data and instructions. The other is to integrate the artificial intelligence chip on the wearable device processor, and collect and analyze the information directly on the wearable device without relying on the network and cloud, and get the results. The research achievements of Cambridge University and "Huangshan 1" chip respectively correspond to the combination of these two types of artificial intelligence and wearable devices. On the one hand, with the help of the wearable devices of artificial intelligence in the network and the cloud, there is a high demand for the processors of artificial intelligence in the network and the cloud. The collected data need to be transmitted at high speed and low delay through the network, and the calculation and analysis can be completed quickly in the cloud, and the conclusions can be drawn and sent to users. Only in this way can we realize effective monitoring of the body and timely warning of health threats. The advantages of high bandwidth and low delay of the 5G network that will be put into use in the future can strongly support the realization of this function. The continuous optimization and upgrading of artificial intelligence algorithms and the continuous improvement of processor performance also provide a guarantee for cloud artificial intelligence to analyze and process a large number of uploaded monitoring data. On the other hand, by integrating the artificial intelligence chip into the wearable device processor, the process of data transmission between the client and the cloud can be omitted, the constraint of wireless transmission can be freed, the dependence of wearable devices on other devices and conditions can be reduced, the independent working degree of wearable devices can be improved, and the use burden of users can be reduced.
Different from the common forms of artificial intelligence at present, hybrid intelligence emphasizes man-machine cooperation and human role. That is, the role of human is introduced into the intelligent system to form a mixed intelligent paradigm of human in the loop. In this paradigm, people are always part of this intelligent system. When the output confidence of the computer in the system is low, people actively intervene to adjust the parameters and give reasonable and correct problem solving, which constitutes a feedback loop to improve the intelligence level.
5. How to use wearable technology to realize hybrid intelligence?
With the help of the Internet and cloud computing.
1. In the process of using wearable technology, users need to use the network and cloud to realize hybrid intelligence.
2. Wearable devices monitor various human and environmental data and upload them to the cloud through the network.
3. Cloud artificial intelligence chip analyzes and returns corresponding data and instructions to realize hybrid intelligence.
The arrival of the era of wearable smart devices means the intelligent extension of people. Through these devices, people can better perceive external and their own information, process information more efficiently with the help of computers, networks and even other devices, and realize more seamless communication. The application fields can be divided into two categories, namely self-quantification and in vitro evolution.
In the field of self-quantification, there are two most common application subdivisions, one is the outdoor field of sports and fitness, and the other is the field of medical care. The former mainly participates in professional outdoor sports manufacturers and some start-up companies, mainly in the form of lightweight watches, bracelets and accessories to realize the monitoring, analysis and service of sports or outdoor data such as heart rate, cadence, air pressure, diving depth and altitude. Representative manufacturers such as Suunto, Nike, Adidas, Fitbit, Jawbone, Gudong, etc. Among the latter, the main participating manufacturers are medical portable equipment manufacturers, which provide professional solutions for the detection and processing of medical signs such as blood pressure and heart rate, including medical vests, belts and implantable chips. , representing manufacturers such as BodyTel, FirstWarning, Nuubo, Philips, etc.
In the field of in vitro evolution, this kind of wearable smart devices can help users improve their information perception and processing ability, and their application fields are extremely wide, from entertainment, information exchange to industrial applications. Users can improve or innovate their skills through wearable devices with various sensing, processing, connection and display functions. The main participants are innovators in high-tech manufacturers and academic institutions. The product forms are mainly full-featured smart watches, glasses and other forms, which can interact with users without relying on smart phones or other external devices. Representatives such as Google, Apple and MIT.
How does eSIM+ commercial platform apply to IOT products such as smart wear?
The platform can realize the integration of communication and intelligent terminals at SDK level, the sharing of customized products and code number resources, and the independent selection of users, thus realizing a communication product service system with extremely convenient remote configuration and delivery of communication services.
Eight core capabilities, such as platform ownership number * * * and free choice, service package display and customization, real-name registration system data fast return, real-name registration system live authentication, service capability and status query, service opening return, terminal self-writing card, and payment closed loop.
At the same time, through the card alliance SDK open platform operation empowerment, enhance the product operation ability of partners and enjoy the benefits of communication business.
At present, the commercialization platform of Yuante Communication esim++ has been applied to wearable devices such as children's watches, sports watches and watches for the elderly.
What is the development trend of smart wearable industry, and what should the brand planning of medical-grade smart wearable devices do?
The future development prospect of wearable device market is still broad, and the development of smart wearable industry will get better and better, among which the market demand for professional medical-grade smart wearable devices is greater. Doing a good job in brand planning of medical-grade smart wearable devices requires rich experience and professional ability. China's Osseth brand planning in the industry is very professional, you can ask them. Help VivaLnk transform its technology geographical brand advantage into brand advantage, and help it occupy two commanding heights: VivaLnk= global skin leader in flexible electronics, VivaLnk= global leader in flexible telemedicine wearable devices, _