The original project was developed by greerviau and ported to the web by Denes Tornyi.
Run npm install and npm start. It should work from Node 8 to 12 using Chrome 80.
Each snake contains a neural network. The neural network has an input layer of 24 neurons, 2 hidden layers of 16 neurons, and one output layer of 4 neurons. Note: Network can now be customized with the number of hidden layers as well as the number of neurons in the hidden layers.
The snake can see in 8 directions. In each of these directions the snake looks for 3 things:
- Distance to food
- Distance to its own body
- Distance to a wall
3 x 8 directions = 24 inputs. The 4 outputs are simply the directions the snake can move.
Each generation a population of 2000 snakes is created. For the first generation, all of the neural nets in each of the snakes are initialized randomly. Once the entire population is dead, a fitness score is calculated for each of the snakes. Using these fitness scores, some of the best snakes are selected to reproduce. In reproduction two snakes are selected and the neural nets of each are crossed and then the resulting child is mutated. This is repeated to create a new population of 2000 new snakes.
A snakes fitness is dependant on how long the snake stays alive as well as its score. However they are not equally important, having a higher score is rewarded more than a snake who simply stays alive. There is the possibility however that a snake may evolve a strategy where it loops in a certain pattern and never dies. Even though having a high score is prioritized more, if a snake can stay alive forever then that is a clear problem. To avoid this each snake is giving 200 starting moves at the beginning of its life. Every time it eats a piece of food it gains 100 more moves, with a maximum of 500 moves. This means that snakes who evolve to go in loops will eventually die and snakes who go for the food will not only have a higher score, but stay alive longer.
When two snakes are selected for reproduction, what happens is that the snakes brains are crossed with each other. What this means is that part of one parents brain is mixed with part of the second parents and the resulting brain is assigned to the child. After the crossover the brain is also mutated according to a mutation rate. The mutation rate determines how much of the brain will be randomly altered.
Copyright (c) 2018 Greer. Licensed under the MIT license. Copyright (c) 2020 Dénes Tornyi. Licensed under the MIT license.