Wednesday, April 7, 2010

Building Autonomous machines / Robots

The world is changing fast and so are the definitions. Robotics, now has so many definitions today, but we still think a robot should look like human and could do more than we can do. Some definitions also say that any machine that can run on its own and make work easier is robot. But than in this case a washing machine is also a robot. Leaving the definitions aside, we would talk about making a very simple autonomous robot today. One that can guide itself and will not need human help in making decisions.
I'm talking about a line follower. A line follower is a machine that can be guided by just a line drawn on its path. Simplest of its kind can be built on a differential drive system, i.e, independent actuators (motors) for each wheel.   Plus we need 2 pair of Light sensors (Tx and Rx).
This image here is of a black line follower. Currently both the sensors are sensing white colour ( A '1'). We can say that M1 and M2 are tied to these sensors and are being driven by them. But when this follower will move a little further, the right sensors will encounter black or a ZERO. Stop the right motor on sensing this, and let the Left motor rotate. This will turn the machine to the left following the line.
There could be more modifications to build a better line follower, which I'll introduce in next post, also I'll introduce how to build the required circuit for it.


Friday, January 8, 2010


GAUSSIAN DISTRIBUTION

This article explains my Popcorn / Mass Bunk Theory

What happens in a mass bunk?

  1. Mass bunk in initiated
  2. One or two would leave the class
  3. Followed by after a few minutes another 3 or 4 will do the same
  4. Then almost at a constant rate( first increasing and then Decreasing), leaving a few the complete class will be empty within no time
And then a few (may be just 1,2) will stay back and attend the lecture :(

Lets cook some popcorn now!

  1. Heat the corns in a utensil
  2. A one or two will pop in a few minutes
  3. A few seconds later another 3-4 will pop
  4. And then almost at a constant rate ( first increasing then decreasing) corns will start popping. POP POP POPPPPPPPPPPPPPPPPPOOOOOOPPPPPP....
  5. Minutes later it will all be quiet and left, would be a few non popped corns!

I guess this is how a Gaussian Distribution turns out to be!