With the help of the network and the cloud.
The combination of artificial intelligence and wearable devices can be divided into two main categories, one is with the help of the network and the cloud, wearable devices to monitor a variety of human body and environmental data, uploaded to the cloud through the network, analyzed by the AI chip in the cloud, and sent back the corresponding data and instructions. The other category is the artificial intelligence chip integrated in the wearable device processor, so that you can not rely on the network and the cloud, directly in the wearable device to complete the collection and analysis of information to produce results. The research results of the University of Cambridge and the "Huangshan 1" chip correspond to these two types of artificial intelligence and wearable devices. On the one hand, AI wearable devices with the help of the network and the cloud have high requirements for the network and the cloud AI processor, which needs to transmit the collected data through the network with high speed and low latency, and quickly complete the computation and analysis in the cloud to draw conclusions and send them back to the user. This will enable effective monitoring of the body and timely warning of health threats. The advantages of high bandwidth and low latency 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-based artificial intelligence to analyze and process a large amount of uploaded monitoring data. On the other hand, by integrating the AI chip into the wearable device processor, the process of data transmission between the user side and the cloud side can be omitted, breaking away from the constraints of wireless transmission, reducing the dependence on other devices and conditions when using the wearable device, enhancing the degree of independent work of the wearable device, and lowering the burden of the user's use.
Unlike current common forms of AI, hybrid intelligence places more emphasis on human-machine collaboration and the role of people. That is, the role of the human is introduced into the intelligent system, forming a hybrid intelligence paradigm of human in the loop. In this paradigm, people are always a part of this type of intelligent system, and when the output confidence of the computer in the system is low, people take the initiative to intervene to adjust the parameters to give a reasonable and correct solution to the problem, which constitutes a feedback loop to improve the level of intelligence.
5, using wearable technology how to realize hybrid intelligence?
With the help of network and cloud.
1, in the process of users utilizing wearable technology, it is necessary to realize hybrid intelligence with the help of the network and the cloud.
2. Wearable devices monitor various human and environmental data, which are uploaded to the cloud through the network.
3, by the cloud artificial intelligence chip to analyze, send back the appropriate data and instructions to achieve hybrid intelligence.
The advent of the era of wearable smart devices means that the extension of human intelligence, through these devices, people can better perceive the external and their own information, can be in the computer, the network and even other people's assistance to more efficient processing of information, and can achieve more seamless communication. The application areas can be divided into two main categories, namely, self-quantification and in vitro evolution.
In the field of self-quantification, the most common are two major application segments, one is the outdoor sports and fitness field, and the other is the healthcare field. In the former, the main players are professional sports and outdoor manufacturers and some start-ups, with lightweight watches, bracelets, accessories as the main form, to achieve sports or outdoor data such as heart rate, step frequency, barometric pressure, diving depth, altitude and other indicators of the monitoring, analysis and services. Representative manufacturers such as Suunto, Nike, Adidas, Fitbit, Jawbone and Gudong. As for the latter, the main participating vendors are medical portable device manufacturers, providing detection and processing of blood pressure, heart rate and other medical signs with specialized solutions in a variety of forms, including medical undershirts, belts, implantable chips, etc., representing vendors such as BodyTel, FirstWarning, Nuubo, Philips and so on.
In the field of in-vitro evolution, these wearable smart devices can assist users to realize the enhancement of information perception and processing capabilities, and their application fields are extremely broad, from leisure and entertainment, information exchange to industrial applications, users can realize the enhancement of their own skills or innovations through the diversified sensing, processing, connectivity, and display functions of the wearable devices. The main players are innovators from high-tech manufacturers and academic institutions, and the product forms are mainly full-featured smartwatches and glasses, which do not need to rely on smartphones or other external devices to realize interaction with users. Representatives such as Google, Apple and the Massachusetts Institute of Technology.
How is the eSIM+ commercialization platform applied to smart wearable and other IoT products?
The platform enables SDK-level integration of communications and smart terminals, customized products and code number resources*** enjoyment, and users' independent on-demand selection of the three major capabilities, realizing the remote configuration of communications services and the ultimate convenience of delivery of communications product service system.
The platform has eight core capabilities, such as number *** enjoyment and free choice, business package display and customization, real-name data quick return, real-name live authentication, business capability and status query, business opening return, terminal self-writing card, closed-loop payment and so on.
At the same time, through the card league SDK open platform operation empowerment, can enhance the product operation ability of the partners, *** enjoy the communication business revenue.
At present, the eSIM+ commercialization platform of YuanTeCommunication has been applied in wearable devices such as children's, sports and elderly watches.
How is the development trend of the smart wearable industry, and what should be done for the brand planning of medical grade smart wearable devices?
The future development prospects of the wearable device market is still broad, the smart wearable industry development will get better and better, in which the professional medical grade smart wearable device market demand is even greater. Doing a good job of brand planning for medical-grade smart wearable devices requires rich experience and professional ability, the domestic Oasis in the industry to do brand planning is very professional, you can go and ask them. It has assisted VivaLnk to transform its technological geo-branding advantage into a brand advantage, helping it to occupy two major high points: VivaLnk=global leader in flexible e-skin, VivaLnk=global leader in flexible remote smart medical wearables,_
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