Technology is always improving, technology is constantly innovating, and more so as robots at the forefront of technology. Maybe some of the technologies are still very elementary to us now, and we still can not create any benefits for our society. However, the development of technology has always been a gradual process. It is necessary to keep exploring, summarizing and accumulating experiences in our life. When it was discovered, at that time no one dared to say that it could change the world, but now it did. Believe today in the robotics these new technologies will in the future actually change the industry, changing human life. Let's take a look at those robotics that will change the way we live in the future. Editing point of view: The emergence of this technology will subvert the traditional understanding of the robot, the robot will no longer be just the cold steel, if the technology is mature, it can be completely applied to the field of space and medicine, the aerospace industry and medical A big leap in business. 2 Human-Computer Interaction Technology <br> Toshiba has released a new humanoid interactive robot at the Cutting-EdgeIT & Electronics Comprehensive Exhibition (CEATEC) show, the most prominent feature of which is its ability to communicate with others via sign language. Editor's point of view: Free dialogue with the robot is a robot high expectations, and the appearance of man-machine technology just to meet people's most urgent needs, it can be said that human-machine interaction technology is the future of service robot will also be the core of the most The basic technology, although still in the trial phase, has unlimited future potential. Golf Knitting Head Cap,Golf Club Protection,Wooden Club Set,Golf Club Cover Cap Grand Dragon Sports Company Limited , https://www.golfyy.com
1 Software Robotics <br> Robots are like the Optimus Prime in most people's eyes, but the fact is not always the case. Researchers at Purdue University recently invented a soft robot made of lightweight, inert foam. To make it free to bend like a robot, researchers covered the surface of the foam with a Layer of special "clothing", and this layer of polymer fiber in the case of heat can freely change the shape and hardness, the role of the same as attached to the bones of the muscles in general.
The head of the project said that the mechanical fibers that can be deformed and shrunk will be widely used in the field of robots, and they also have plans to develop new type of flying robots based on this. In addition, thanks to low cost and light weight, mechanical fiber robots are ideal for space exploration, knowing that every extra gram of material sent to space will have a significant increase in launch costs, and NASA has also begun to study such software robot. Moreover, mechanical fibers are an excellent material for the medical field, such as external fixation that can be made into a fracture patient, which reduces the patient's burden on the basis of improving the fixation effect.
It is reported that, thanks to the motor built in the joint 43, the so-called AikoChihira female role robot limb movements quite natural and smooth, which also allows sign language expression as possible. However, robot motion simulation technology currently has many limitations, Toshiba plans to launch more fully intelligent sign language interactive robot by 2020, and to achieve this goal must be the language of speech, voice recognition, motion control and other systems perfect combination together. It is worth mentioning that the ultimate goal of the AikoChihira program is to provide services to the elderly and people with Alzheimer's disease and to accompany them while providing real-time custody of medical staff or their loved ones.
In addition to Toshiba, many research institutes are also involved in the AikoChihira program. Toshiba has embarked on in-depth cooperation with Osaka University, while the latter has been committed to humanoid robot design and development work, so AikoChihira will look so real. In addition, Shibaura Institute of Technology and Shonan Institute of Technology also contributed greatly to this project in motion sensor technology and robot drive technology, while Toshiba created AikoChihira's motion control and coordination algorithms.