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I'm new in neural networks and i'm designing a feed forward neural network to learn to play the game checkers. As input, the board has to be given and the output should give a chance to win and lose. But how can be the ideal transformation of the checkers board to a row of numbers for input? There are 32 possible squares and 5 different possibility (king or piece of white or black player and free position) on each square. If i provide a input unit for each possible value for each square, it will be 32 * 5. Another option is that:

  Free Position: 0 0

  Piece of white: 0 0.5 && King Piece of white: 0 1

  Piece of black: 0.5 1 && King Piece of black: 1 0

In this case, input length will be just 64 but i'm not sure which one will give a better result?

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3 Answers 3

I've done this sort of thing with Tic-Tac-Toe. There are several ways to represent this. One of the most common for TTT is have input and output that represent the entire size of the board. In TTT this becomes 9 x hidden x 9. Input of -1 for X, 0 for none, 1 for O. Then the input to the neural network is the current state of the board. The output is the desired move. Whatever output neuron has the highest activation is going to be the move.

Propagation training will not work too well here because you will not have a finite training set. Something like Simulated Annealing, PSO, or anything with a score function would be ideal. Pitting the networks against each other for the scoring function would be great.

This worked somewhat well for TTT. I am not sure how it would work for Checkers. Chess would likely destroy it. For Go it would likely be useless.

The problem is that the neural network will learn patters only at fixed location. For example jumping an opponent in the top-left corner would be a totally different situation than jumping someone in the bottom left corner. These would have to be learned separately.

Perhaps better is to represent the exact state of the board in position independent way. This would require some thought. For instance you might communicate what "jump" opportunities exist. What move-towards king square opportunity's exist, etc and allow the net to learn to prioritize these.

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I'd liked this way of thinking "Perhaps better is to represent the exact state of the board in position independent way"! Thus you say concretely that i have to choose 32 input neuron? For pieces 0.5 and -0.5 (opponents), for kings -1 and 1 and free position 0.I will try it. In my neural network, there are 3 output neurons which give the change to win, to lose and to draw; they will be probably also more sensitive in this way because of less amount of input neurons. And for the training, i'm planning to use reinforcement learning with TD and this makes the situation more difficult. Thank you! –  Asqan May 4 '13 at 23:59

Please see this thesis Blondie24 page 46, there is description of input for neural network.

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up vote 0 down vote accepted

I've tried all possibilities and intuitive i can say that the most great idea is separating all possibilities for all squares. Thus, concrete:

0 0 0: free
1 0 0: white piece
0 0 1: black piece
1 1 0: white king
0 1 1: black king

It is also possible to enhance other parameters about the situation of the game like the amount of pieces under threat or amount of possibilities to jump.

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