A binary robot compute with 0 and 1. 0 and 1 are black and white in terms of color. Therefore, the world seen by the binary robot is black, white, and flat. It is not easy for it to judge the exact distance, so it is difficult for it to help humans drive.
At present, there are many sensors installed in the self-driving cars, such as a radar or LiDAR. The sensor transmits and receives signals. If the signal is blocked, for example, if the radar encounters a metal object that interferes with electromagnetic waves, it will reflect, refract, and scatter, causing the sensor to malfunction.
The optical chip performs multi-bit computing according to the basis of light having different wavelengths. For example, we make use of the five basic light colors, red, blue, green, black, and white, to form a colorful world, so robots enter the colorful world of human beings from the black and white world of the binary system. Each of these five light colors has two states, "pass through” and “non-pass through”. Therefore, the “pass through” and “non-pass through” of the five colors are just the basic unit of the decimal, so the calculation speed will be ten million times faster.
Use a coordinate to design. Mark north, east, south, and west directions and add northeast, southeast, southwest, and northwest directions, and the total are 8 directions. These 8 directions represent 8 numbers,1,2,3,4,5,6,7,8.
Further, we can set 8, 8.1, 8.2, 8.3, 8.4, 8.5..., and set 2, 2.1, 2.2, 2.3, 2.4, 2.5.., etc. This is a plane with 8 directions including the front, back, left, and right. Now, the up and down directions are added, wherein the up direction represents the number 9 and the down direction represents the number 0, so the 3D coordinates come out!
A bodyguard robot has camera lenses installed on its front and back. If someone wants to sneak attack the robot behind, the robot will turn around immediately. It can also block bullets. The camera lenses of the robot can zoom in and zoom out to see what humans cannot see. It can search the environment to see if there are any suspicious people and find where the terrorists are hiding to become your exclusive bodyguard.
Optical chips have a wide range of applications. If it is used in the medical domain, for example, manufacturing a robotic arm replaces a doctor to perform surgery, but it cannot be achieved without the optical chip. If a company makes the first generation of Da Vinci robotic system with optical chips, the whole world will buy it. Therefore, it is not necessary to produce the whole robot system. Even if the robotic arm or a self-driving device with optical chips, we can defeat the whole world.
The robot will detect the distance. People may have the problem of fatigue driving, but the robot does not have the problem of dozing off. Thus, robots can help people drive. In addition, there is no need for installing certain sensors on the vehicles, robots can react to what human can react. Its reaction is quicker than human’s because its computing speed is faster than human.
People look at the behind to see if anyone overtakes by means of a rear mirror. For the robot, it has a camera lens on its back to detect the distance and knows to drive away if there’s a vehicle coming abnormally from the behind, so the robot is much faster than the radar detection.
The intelligent nursing robot can calculate the distance between itself and a patient and feed food to the patient’s mouth accurately. When the patient stretches his hand over, the robot will start to calculate where his hand is, how far it is, and where to stop. That is, the robot has the perception ability.
We sincerely welcome interested enterprises to contact us to discuss matters such as joint R&D and authorized production. Any company that is interested in investing in AI robots can negotiate with the company for patent licensing, technology transfer, and mass production cooperation to achieve multi-bit high-speed computing photonic chips.