The intelligent robot is a machine with sensing, thinking and action functions. It is a comprehensive result of various disciplines and technologies such as mechanism, automatic control, computer, artificial intelligence, microelectronics, optics, communication technology, sensing technology, and bionics. Intelligent robots can acquire, process and identify a variety of information, and autonomously complete more complex operational tasks, which is more flexible, more maneuverable and more widely used than general industrial robots.
As a new generation of production and service tools, intelligent robots have a broader and more important position in the manufacturing and non-manufacturing fields, such as nuclear industry, underwater, space, agriculture, engineering machinery (above and underground), construction, medical, disaster relief. In terms of risk management, military, service, entertainment, etc., it can replace people to complete various tasks. At the same time, as an automated and information-based device and device, intelligent robots can fully enter the network world and play more and greater roles. This has very practical significance for human beings to open up new industries and improve production levels and living standards. In this regard, this paper takes stock of the top ten technologies of the latest application in the robot industry in 2015 for your reference.
1. Biomechanical integration technology
Biomechanical integration is a cutting-edge science and technology that has developed rapidly in recent years. The technology is applied to robots. Through the measurement and processing of neural information and the establishment of human-machine information channels, neuro-biosignals are transmitted to robots, enabling robots to The executor's order. Because of this principle, the prosthetic can also "understand" the person's instructions and become part of the human body.
2, security robot inspection technology
The intelligent inspection robot carries a detection device such as an infrared camera and a visible light camera, patrols the work area and transmits the picture and data to the remote monitoring system, and performs infrared temperature measurement on the device node to timely detect defects such as heat of the device. At the same time, it is also possible to judge the running condition of the transformer through sound detection. Automatically determine and alarm the accident hazards and fault precursors in the operation of the equipment, effectively eliminating accidents.
3. Big data and analysis technology
More and more data, and human interpretation is fixed. Computers can help humans find their own blind spots, and data can allow computers and humans to communicate and integrate. The big data-based analytics model has only recently emerged in a large number of global manufacturing industries. Its strength lies in its ability to optimize product quality, save energy, and improve equipment services.
4, robotic autonomous technology
Robots are evolving and can even be used in larger utilities, and they become more autonomous, flexible, and collaborative. In the end, they will work side by side with humans, and humans will learn from them. These robots will cost less and are more versatile than robots used before manufacturing.
5, simulation technology
The simulation will use real-time data to reflect the real world in the virtual model, including machines, products, people, etc., which allows operators to test and optimize in virtual modeling.
6, IoT embedded technology
With the development of the Internet of Things industry, more devices and even more unfinished products will be connected using standard technologies, enabling on-site communication and providing real-time response.
7, cloud computing robot
Cloud computing robots will completely change the progress of robot development and greatly promote the perfection of software systems. In today's era, data sharing across sites and across enterprises is needed. At the same time, the performance of cloud technology will increase and it will only respond within a few milliseconds.
8, over-limit robot technology
In the field of micro-nano manufacturing, robotics can help people to see what they can't see or touch, and to be able to see, touch, and assemble and produce. This micro-nano robot can directly expand the interaction between substances in the nano-environment and operate on micro-nano scale materials and materials.
9, AVG robot cooperation technology
Compared with the single robot's “single fightâ€, the collaborative work between multiple robots is more important, and this requires a complete scheduling system to ensure that many simultaneous robots in the workshop are coordinated and orderly. Multi-robot collaborative control algorithm This technology platform can collaboratively control hundreds of intelligent robots to work together to complete order identification, cargo positioning, automatic capture, automatic packaging and delivery.
10, brain wave control technology
Remote on-site robots will become an indispensable part of people's lives in the future. The user needs to wear a hat that can read the brain wave data, and then train the robot's hands and feet to react accordingly, in other words, to control the movement of the robot through the mind. It not only recognizes various motion control commands through software, but also actively avoids obstacles during the course, which is highly flexible and easier to use.
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