Brain Controlled Car For Disabled People

 Brain Controlled Car For Disabled Using Artificial Intelligence

In this article, I am going to tell you about a brain driven and the brain controlled car for physically disabled people, which would be a great help to them. These cars rely on what the individual is thinking, it will not require any physical movement of any part of the individual.

The car integrates signals from various different sensors like video, anti-collision, monitor, etc. This car also has an automatic navigation system in case of an emergency. This brain-controlled car works on the asynchronous mechanism of artificial intelligence.

A brain-computer interface (BCI), sometimes called a direct neural interface or a brain-machine interface - is a direct communication pathway between human beings and the animal brain and an external device. On the other hand, BCIs' computers either accept commands from the brain or send signals to it it cannot perform both at the same time. 

When the driver (disabled person) comes near the car. The security system of the car is activated. The images, as well as the thermographic results of the driver, are previously fed into the database of the computer. If the video images match with the stored database entries, then the security system advanced to the next stage. Thermographic verification here is done with the database. 

These cars integrate signals from a variety of sensors such as weather monitor, anti-collision, video, etc.  These cars also have an automatic navigation system for the case of an emergency. These types of cars are developed on the basis of the asynchronous mechanism of artificial intelligence.

If we talk about the 40s and 50s, a number of researches explored the connection between information theory, cybernetics, and neurology. Some people built machines that used electronics network to exhibit rudimentary intelligence, such as W. Grey Walter’s turtles and the Johns Hopkins Beast. Many researchers gathered for meetings of the Technological Society at Princeton and the Ratio Club in England.

Many researchers hope that their work will eventually be incorporated into a machine with general intelligence, also known as strong Al, by combining all the skills above and exceeding human abilities at most. A few of them also believe that anthropomorphic features like artificial consciousness or an artificial brain may be required for such a project.

 

WORKING:

As soon as the driver passes this stage the door slides to the side and a ramp is lowered from its floor. When the driver enters the ramp, the flip accurate the ramp to be lifted horizontally. This car relies on what the individual is thinking they will not require any type of physical movement on the part of the person using this car.

Car For Disabled

And then robotic arms assist the driver to his seat. As soon the driver has seated the electroencephalogram (EEG) helmet, attached to the top of the seat, comes downward and suitably placed on the driver's head.

A widescreen of computers is also placed at an angle aesthetically suitable to the driver.

 Each program in these cars can be controlled either directly by a mouse or maybe by a shortcut. For starting these cars, the start button is clicked. Accordingly, when the computer switches ON the circuit from the battery to the A.C. Series Induction motors.

The EEG principle is that the impulse of the human brain is tracked and can also be decoded. If the driver tries to attempt any physical movement it sends an impulse to the motor neuron, it decodes the message at the motor neuron to obtain maximum accuracy.   

The principle behind the entire mechanism is that the impulse of the human brain can be tracked and decoded. The low-frequency Asynchronous Switch Design traces the motor neurons in the person's brain. Motor neurons carry the signal to the physical components such as hands and legs. We decode the message at the motor neuron to obtain maximum accuracy. By observing the sensory neurons monitor the eye movement of the drivers.

As the eyes of the individual moves, the cursor on the screen also moves and is also brightened when the driver concentrates on one particular point in his environment. And the sensors which are placed at the front and the rear ends of the cars, send live feedback of the environment to the computer. The driver EEG is monitored continually. If it drops less than 4 Hz then the driver is in an unstable state. A message is displayed to the driver for the confirmation and then waits for some time, to continue the drive.

A confirm reply activates the program for its automatic drive, but if the driver doesn’t respond then the computer prompts the driver for the destination before the drive. As the system is based on artificial intelligence it automatically monitors every route of the car travels and stores it in its map database for the future use.  

“It is a great use of modern technologies like artificial intelligence to make a physically disabled person, able.”