Awesome
brain
brain
is a JavaScript neural network library. Here's an example of using it to approximate the XOR function:
var net = new brain.NeuralNetwork();
net.train([{input: [0, 0], output: [0]},
{input: [0, 1], output: [1]},
{input: [1, 0], output: [1]},
{input: [1, 1], output: [0]}]);
var output = net.run([1, 0]); // [0.987]
There's no reason to use a neural network to figure out XOR however (-: so here's a more involved, realistic example: Demo: training a neural network to recognize color contrast
Using in node
If you have node you can install with npm:
npm install brain
Using in the browser
Download the latest brain.js. Training is computationally expensive, so you should try to train the network offline (or on a Worker) and use the toFunction()
or toJSON()
options to plug the pre-trained network in to your website.
Training
Use train()
to train the network with an array of training data. The network has to be trained with all the data in bulk in one call to train()
. The more training patterns, the longer it will take to train, but the better the network will be at classifiying new patterns.
Data format
Each training pattern should have an input
and an output
, both of which can be either an array of numbers from 0
to 1
or a hash of numbers from 0
to 1
. For the color constrast demo it looks something like this:
var net = new brain.NeuralNetwork();
net.train([{input: { r: 0.03, g: 0.7, b: 0.5 }, output: { black: 1 }},
{input: { r: 0.16, g: 0.09, b: 0.2 }, output: { white: 1 }},
{input: { r: 0.5, g: 0.5, b: 1.0 }, output: { white: 1 }}]);
var output = net.run({ r: 1, g: 0.4, b: 0 }); // { white: 0.99, black: 0.002 }
Options
train()
takes a hash of options as its second argument:
net.train(data, {
errorThresh: 0.004, // error threshold to reach
iterations: 20000, // maximum training iterations
log: true, // console.log() progress periodically
logPeriod: 10 // number of iterations between logging
})
The network will train until the training error has gone below the threshold (default 0.005
) or the max number of iterations (default 20000
) has been reached, whichever comes first.
By default training won't let you know how its doing until the end, but set log
to true
to get periodic updates on the current training error of the network. The training error should decrease every time.
Output
The ouput of train()
is a hash of information about how the training went:
{
error: 0.0039139985510105032, // training error
iterations: 406 // training iterations
}
Failing
If the network failed to train, the error will be above the error threshold. This could happen because the training data is too noisy (most likely), the network doesn't have enough hidden layers or nodes to handle the complexity of the data, or it hasn't trained for enough iterations.
If the training error is still something huge like 0.4
after 20000 iterations, it's a good sign that the network can't make sense of the data you're giving it.
JSON
Serialize or load in the state of a trained network with JSON:
var json = net.toJSON();
net.fromJSON(json);
You can also get a custom standalone function from a trained network that acts just like run()
:
var run = net.toFunction();
var output = run({ r: 1, g: 0.4, b: 0 });
console.log(run.toString()); // copy and paste! no need to import brain.js
Streams
The network now has a WriteStream. You can train the network by using pipe()
to send the training data to the network.
Example
Refer to stream-example.js
for an example on how to train the network with a stream.
Initialization
To train the network using a stream you must first create the stream by calling net.createTrainStream()
which takes the following options:
floodCallback()
- the callback function to re-populate the stream. This gets called on every training iteration.doneTrainingCallback(info)
- the callback function to execute when the network is done training. Theinfo
param will contain a hash of information about how the training went:
{
error: 0.0039139985510105032, // training error
iterations: 406 // training iterations
}
Transform
Use a Transform to coerce the data into the correct format. You might also use a Transform stream to normalize your data on the fly.
Options
NeuralNetwork()
takes a hash of options:
var net = new NeuralNetwork({
hiddenLayers: [4],
learningRate: 0.6
});
hiddenLayers
Specify the number of hidden layers in the network and the size of each layer. For example, if you want two hidden layers - the first with 3 nodes and the second with 4 nodes, you'd give:
hiddenLayers: [3, 4]
By default brain
uses one hidden layer with size proportionate to the size of the input array.
learningRate
The learning rate is a parameter that influences how quickly the network trains. It's a number from 0
to 1
. If the learning rate is close to 0
it will take longer to train. If the learning rate is closer to 1
it will train faster but it's in danger of training to a local minimum and performing badly on new data. The default learning rate is 0.3
.
Bayesian classifier
The Bayesian classifier that used to be here has moved to its own library, classifier.