To develop such vehicles which can be operated by using an interface (like a sensor-mounted cap) that takes instructions directly from the human brain.
Answers
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Explanation:
One, that would be quite hard to engineer to amplify the brain signal. Also it would require more time to calibrate which signals to use, and how the car will behave.
Then program the vehicle to go to that direction where the eye looks. Plus the current technology for an eye tracker is already in existence. And is already in use in some automotive application.
Now imagine, you saw a pedestrian on the side of the road. And then of course your eyes will point to that direction. We don’t want the car to go that way either.
Hence, we also need to employ an obstacle recognition, and spatial recognition system on the car to differentiate between looking at a location to intentionally go there, and looking at something and seeing it as an obstacle and avoid it.
So in an instruction to a computer would be:
Inputs from 1. Eye Tracker, 2. obstacle recognition—let’s say laser optical sensor which can detect both distance and size of the object.
So that the expected output would be to avoid the obstacle even when you are looking at it.
So that, you are using the human eye to detect things, and using the sensors to recognize it to translate it into a digital signal that will be used by the computer to execute a task.
And at that point, you would be better off putting a steering wheel along with the system. To have more input on driver’s intended direction.
The project code is #SPJ3