Japan -ALSHARQIYA January 27: The compatibility between the mind and body of a robot, remains the biggest challenge facing scientists to make it more humane, and it is similar in its movements and response to human instant behaviors.
Scientists from the Massachusetts Institute of Technology were able to find a way to speed up the response time in real time through a central processing chip that enables it to imitate human behavior.
According to a report published by the World Economic Forum "WEF" website, this method allows robots to use the maximum speed of the motors they use, and to bridge the gap in communication between the CPU and the parties that use it.
Sabrina Neumann, of the MIT Artificial Intelligence Laboratory, said that perceiving and reacting to alerts and commands depends on an accurate calculation of response to actions in what it calls "robotic computing."
The control chip in the robotic computing system is the most important for processing data quickly and accurately through applications, and the recipe for success in it depends on reducing the response time of the robot to implement the required reaction or action.
Newman notes that success in finding such robots will be important to reduce the risks to humans, so it can be used in medical fields, which means reducing risks for patients and hospital workers.
In order for such robots to work on the ground to operate in a safe environment and at the required speed, the central processing chip has the ability to run multiple algorithms at high speed, and this requires improvement as well.
The researchers found their way to develop robotic computing based on adding a parallel chip to the main processor they called "FPGA", but it works with a processor similar in design to the "GPU", which has the ability to process thousands of digital pixels at one time.
Thus, designing these robots similar to humans in their immediate actions requires creating a system that is fed with commands to teach the robot, which the new slide processes by creating a system of mathematical and physical matrices that give the robot the freedom to perform the required commands from it within the limits of its capabilities with regard to movement.
And the new FPGA chip was able to prove that it is eight times faster than the CPUs, and 86 times faster than the GPU.