Robot applications will drive the rise of domestic sensors

Howe Technology Announces 8 megapixel Image Sensor Using Nyxel Near Infrared Technology

Howe Technology recently released the latest product in the image sensor family, the OS08A20 with breakthrough Nyxel Near Infrared (NIR) technology. The OS08A20 is the first 8 megapixel sensor that combines Nyxel technology with Howell's PureCel pixel architecture, enabling the image sensor to capture high-definition video and images in all lighting conditions, making the OS08A20 an ideal professional monitor. System imaging solution.

University of Bath, UK developed graphene-based non-invasive, transdermal glucose monitoring sensor

Recently, Professor Adelina Ilie of the University of Bath in the United Kingdom designed and constructed a new in vivo glucose monitoring system. This non-invasive blood glucose monitoring system can be attached to the wrist and can monitor blood sugar without blood collection. The blood glucose monitoring function is realized by a series of miniature sensors built into the wrist blood glucose monitoring system, in which each sensor can absorb glucose from the vicinity of a single hair follicle under the action of a small current, store it in a micro device in the wristband, and measure it. .

Hanwei Technology: All sensor products have independent intellectual property rights

Hanwei Technology said on the interactive platform on April 23 that the company's independent research and development and production of semiconductor, electrochemical, infrared pyroelectric and other gas sensors, manufacturing processes and core technologies have reached the international leading level, especially semiconductor sensors The domestic market share is above 70%. In addition, the company has also developed a variety of sensors such as humidity, pressure, biological and flow. All of the company's sensor products have independent intellectual property rights and are not subject to the constraints of foreign manufacturers.

Robot applications will drive the rise of domestic sensors

Because the outdoor environment is more complicated than indoors, many mainstream robot navigation solutions are mainly based on the application of foreign sensors, but the robots are indoor autonomous navigation solutions, and many domestic solution providers have begun to promote domestic sensors.

Nowadays, there are many large-scale commercial robots on the market. Many of the components on the market are domestic sensors. These robots are distributed in a few hospitals, hotels, banks, shopping malls, etc. These robot products are also testing domestic sensors. How stable is the application.

In short, the gears that now serve the development of the robotics industry are beginning to accelerate, and the next year is critical for companies in all robotics industry chains. It depends on who's robot products are the first to push forward, and at the same time, it also affects the complex mentality of the entire supply chain enterprise, because it has to go through this torment year with various robot companies.

Especially for domestic laser radar companies, if the next year can prove that the stability of domestic laser radar is not inferior to foreign products, the upcoming situation will be that domestic laser radar products will open a comprehensive replacement for foreign products. .

Ultrasonic obstacle avoidance sensor application in AGV industry

In recent years, the rapid development of microcomputer technology, artificial intelligence and sensory measurement and control technology has made AGV more intelligent and humanized, which has made AGV move toward the direction of intelligent robots. A fully functional AGV system usually consists of three major components: the walking mechanism, the sensing system, and the control system. The walking mechanism is the basis for the AGV to achieve the movement, and determines the movement space and freedom of the AGV. The sensing system determines its navigation method. The mainstream uses laser sensors, ultrasonic sensors, photoelectric sensors, magnetic sensors, CCD cameras, infrared sensors or GPS positioning. At present, when operating in some known or unknown environments and requiring autonomous tasks, the AGV must have sufficient security guarantees to sense the external environment with sensors, analyze external conditions, and then understand the environment in an appropriate way. In a complex or unconventional environment, the autonomous AGV should further improve its self-determination ability, relying on its own pattern recognition and obstacle recognition to achieve normal work. It is very important for the intelligence of AGV.

More and more advanced car sensors change the future of autonomous driving

As cars become more autonomous, many sensors in different situations will work together to provide a variety of information to the car's computer under various conditions. Two sensor solutions, DSRC and thermal imaging, can be used to detect images of the surrounding environment of the car, which means it can work with the driver to complete more driving tasks. These road warning and detection methods will greatly guarantee the safety of unmanned driving in the future.