On the basis of low power consumption, small size, high performance, focus on the development of small integrated sensors, to create new functions and interactive experience, is the core of the development of smart wearable devices. Starting from the user's needs, perfecting the functions of smart wearable devices, the functions of future smart wearable devices will not be limited to monitoring heart rate, pedometer, sensing body temperature, sleep, etc., but also be able to detect abnormalities in physiological indicators, and play a tangible role in medical and health care. Human-computer interaction performance is one of the important factors affecting the user experience, and a high sensitivity touch screen can bring good touch control.

The improvement of the safety of smart wearable devices, in addition to the need to refine the technology, the test link is also a step that can not be ignored, the available shrapnel micropin module as a test connection module, to improve the stability of the test, in the transmission of the current and the small pitch to maintain a strong overcurrent and stable transmission of the current can be passed through the 1-50A current, can guarantee the safety and stability of the test of smart wearable devices, can guarantee the safety and stability of the test of smart wearable devices, and is conducive to the improvement of the quality of the device. Favorable to the improvement of device quality.

What other new changes will wearable computer technology bring to our lives?

Nowadays, whether we are in the crowded subway or in the wide shopping malls, smart wearable devices with smart bracelets, smart watches and smart headphones as the main product forms are basically everywhere.

Especially in recent years, due to the residents of the health awareness of the continuous improvement, as well as the continuous innovation of the industry's technology, the global smart wearable devices can be said to show a spurt of growth. And with the socio-economic development and increase in disposable income will promote the popularity of smart wearable products, the future of smart wearable may become a way of life.

What is the impact of smart wearable on our lives?

The current smart wearables industry is divided into commercial consumer-grade and professional medical-grade devices based on application areas. Commercial consumer-grade smart wearable devices are commonly used to monitor the amount of exercise, heart rate, respiration and other products, the most typical representative products are especially popular with young people like millet sports bracelet and Apple's iWatch; professional medical-grade smart wearable devices are intelligent cloud blood pressure monitor, heart rate oximeter, smart snoring pads, including monitoring and treatment of chronic diseases type of medical equipment, mostly for the use of medical institutions to use.

So what changes have smart wearables actually brought to our lives?

In terms of daily life, the current smart wearable's biggest feature should be lightweight and convenient to carry around in our objects, built-in smart chips and sensors, can collect our vital signs and all kinds of sports monitoring, and even independent networking control smart home, no cell phone travel payment and other types of scene use.

What is the impact of smart wearable on our lives?

In medical health monitoring, it can be applied in the management of hypertension, hypoglycemia, heart rate abnormality and other types of diseases, through wearable devices can be long-term monitoring of the changes in the course of the disease, for the diagnosis and treatment of chronic diseases to provide long-term, convenient and fast and accurate health data, and maximize the help of the patient to improve self-supervision, and in accordance with the scientific and healthy way of life.

Of course, with the continuous upgrading of consumer demand, the value of a smart bracelet should not be limited to simple monitoring functions, more industry **** knowledge that smart wearable in the subsequent era should be more in favor of the monitoring of the solution.

Whether it is heart rate, blood sugar, sleep or all kinds of vital signs of health data, through the big data cloud computing technology and functional algorithmic refinement, etc., through which the information can be more effective for consumers to achieve a more scientific health plan.

In the future, with the continuous development of technology, more and more close to our lives, high-tech products will also appear, wearable smart devices as an important direction of future technological development, we have reason to believe that these products conducive to our lives will be unimaginable degree of change in our lives, micro- grams of science and technology, as a national high-tech enterprises in the smart wearable industry, will be the best with outstanding ecological As a national high-tech enterprise in the smart wearable industry, Wicresoft will work with excellent eco-partners to build a "smart wearable hardware ecosystem", and we'll see what happens in the future.

The development of wearable technology can be traced back to the 1980s, the University of Toronto's StevenMann is considered the "father of wearable computing". StevenMann from the 1980s began to try to make glasses that can record the things around them, but before the design is a helmet. As time progressed, his head-mounted smart glasses became lighter and lighter. Eventually, the EyeTab, which connects to computers and the Web, came out 13 years before Google Glass.

But it was only after Google launched GoogleGlass last year that wearables really became a hot topic and caused many companies to follow suit, with a number of companies now launching various types of wearable computing devices such as glasses, watches and shoes. Samsung and Google both have their own smartwatch development programs. Even Microsoft has been working on a smartwatch in its RD lab.

The reason why wearable devices are being emphasized at this time is that the conditions of hardware and software such as micro-processor, screen display technology, and APP are more capable of supporting the development of wearable devices. At the same time, the development of smart phones and mobile Internet has changed the operating environment of wearable devices, so that wearable devices have superb data processing capabilities and transmission capabilities, and its not as bulky as the inventors did in the past, portability has been greatly enhanced.

Based on the current research and development of wearable devices by major companies, it actually divides wearable devices into two main categories, one is a general purpose device whose application is an alternative to a smartphone, and which can fulfill more than one of your needs. For example, Google's glasses, Apple's watch, with the strength of these two technology companies, their wearable devices must replace, at least partially replace the function of the smartphone, so that users "a different way to see the world".

Another type of wearable device is the deep penetration of a certain demand for the crowd. For example, a bracelet that lets you know how you're sleeping, how you're exercising, and gives you advice. Another example is shoes, which record your movement and even navigate for you. They all address only one aspect of your needs, but it provides a deeper and more intimate service that allows users to "see themselves and the world more clearly.

Wearable devices are the most direct way to link people to devices, and their market demand is huge. As Zhang Xiaolong said: "WeChat has solved the problem of communication between people and people, people and businesses, in the future, we also want to solve the problem of communication between people and devices, devices and devices."

And this will undoubtedly trigger a revolution in digital devices.

It is conceivable that the connection and communication between people and devices can be completed entirely by the smartphone, the traditional equipment will be transformed so that it can be connected to the smartphone and transmission of data, by the APP to provide human-computer interaction with the software interface, a series of traditional equipment can be realized with the ordinary user to achieve communication and exchange, and through the smartphone to data on the cell phone to achieve big data.

At present, this application of the most areas is the medical side, electronic blood pressure monitor has been realized with the cell phone APP connection and can be data storage, comparison, and transmission to the doctor. Related manufacturers through the background records, can produce "big data" applications. When the number of users exceeds one million, the relationship between gender, age and hypertension can be analyzed; when the number of users exceeds ten million, and there is a wide range of geographical areas can be analyzed to determine the relationship between hypertension and geographical distribution.

The ultrasound machine in the hospital is only a probe connected to a computer and imaging display, the use of cell phones can completely realize the ultrasound home, and realize the online diagnosis and interaction with hospital doctors. In this field, if we can realize the big data support, the future of our home ultrasound instrument can provide users with basic imaging observations, only with the conclusion of the automatic Email to the doctor, the doctor will be able to realize the diagnosis.

In the winter of 2012, Beijing's haze quiz device was very popular, and many people bought it to measure the PM2.5 concentration around them. If this testing device can be linked to a corresponding cell phone APP, then there may be many more user-initiated testing stations across Beijing, and weather stations will be able to derive more information about PM2.5 with the help of this data, which will effectively contribute to Beijing's efforts to control the atmosphere in the next three years.

How to realize hybrid intelligence using wearable technology

With the help of the Web 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 cloud artificial intelligence chip, 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 boundaries of wireless transmission, reducing the dependence on other devices and conditions when using wearable devices, enhancing the degree of independent work of wearable devices, 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 in which the human is in the loop. In this paradigm, people are always part of such intelligent systems, and when the output of the computer in the system has low confidence, people actively 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.

How to Reduce Energy Consumption of Wearable Intelligent Hardware

How to Reduce Energy Consumption of Wearable Intelligent Hardware? ___

___In today's increasingly serious homogenization of wearable hardware, the pursuit of new and different in functional technology is undoubtedly the partners **** the same focus. In today's wave of wearable smart hardware entrepreneurship, the guys are making every effort to try to do everything possible to solve the problem that everyone is facing; that is, how to reduce the energy power consumption of wearable smart hardware operation. "Wearable smart hardware, as the name suggests, relies on its own built-in energy to keep the small hardware running. In practice, our users need products with small size, long standby time, light weight and stable performance, and the energy consumption problem is a key factor affecting and restricting other issues, how to solve it? Let's continue to look down;_(Welcome to pay attention to WeChat public number: Xiaopai said things_xiaopai)___ Achieving the lowest possible system power consumption is the main technical challenge of wearable devices, but also requires the use of innovative algorithms and sensors. ___Shell翱纱┐魃璞富旧贤ü髦执衅鹘邢喙刂副甑牟饬浚_CU or AP as the main control, plus traditional Bluetooth, low-power Bluetooth, or NFC and other technologies for wireless communication. Although these technologies are relatively mature, but combined together to adapt to the needs of wearable devices is far from being as simple as "building blocks". __ Chrysalis international mash and concubines gorge thick taotao old woman bon jam yu training paradoxical wall of the royal strong yarn ┐ drought drought Pu Gan timid Rose Him Yuk renewed cord mold scale milling sane thumbs faded coats of lemon Ben Yeol Di Zhi support support carrots stealing the South low cut _ neon invasion of the inter-taotoxic taotoxic rice dumplings Jian 6 and Di hemorrhoidal escape from nightmare caryatids Mou hot bonded milk caries scales of misery (4) Loudspeaker times allowed to be overseas past XuanXuan Xie ___ power consumption, battery life, as well as the sensor is to hinder the development of the market of wearable equipment factors in the future, these areas will continue to become a focus of innovation. In the future, these areas will continue to be the focus of innovation. The first step in the development of wearable devices is to make sure that they can be used in the most efficient way, and that they can be used in the most cost effective way. How to minimize energy consumption at low supply voltages (possibly as low as 1.0V)? How to minimize the physical size? In terms of signal processing hardware platform, how to choose the right DSP_Metaplane_SP? How to improve software flexibility? How to choose the right wireless connectivity? These "details" may determine the ultimate success or failure. How can we improve the quality of our products? Sustainability and sustainability are the key to success. Sustainability and sustainability are the key to success. Sustainability and sustainability are the key to success. Sustainability and sustainability are the key to success. Sustainability and sustainability are the key to success. Sustainability and sustainability are the key to success. Sustainability and sustainability are the key to success. ___ in reducing power consumption, the research and development of the coordinates of this focus on the elderly anti-lost products company: Beijing Lei Zhaoan Technology Co., Ltd. gave a more satisfactory program; coordinates of the pie is a focus on preventing the elderly accidentally lost products, its main function is real-time positioning, security fence, a key emergency alarm. I noticed that the built-in battery capacity of this hardware is 1300 mAh, according to the statement they give standby time is 2-3 days, but this time users are still not satisfied. One of the most direct ways to increase standby time is to increase the battery capacity, but to increase the battery capacity must expand the battery size, so it is not "wearable hardware"! There is another factor that affects standby time: the frequency of uploading location data. The higher the uploading frequency, the higher the positioning accuracy, but the energy consumption increases. How to increase the standby time without expanding the size of the product and maintaining the same positioning accuracy? The engineers of R&D Coordinate Pai gave a satisfactory answer; adding a new location tracking mode! __What is location tracking mode? When the guardian needs to check the location of the old man, he can turn on the tracking mode on the APP, and the location data will be uploaded to the guardian's cell phone every 30 seconds, so that the demand for location accuracy can be satisfied. After checking the location of the elderly, you can choose to turn off the location tracking mode, at which time the frequency of location data uploading is changed from once every 30 seconds to once every 10 minutes, which greatly reduces the energy consumption and increases the standby time. The problem is thus perfectly solved.