Deprecation notice.
-----
This toolbox is outdated and no longer maintained.
There are much better tools available for deep learning than this toolbox, e.g. [Theano](http://deeplearning.net/software/theano/), [torch](http://torch.ch/) or [tensorflow](http://www.tensorflow.org/)
I would suggest you use one of the tools mentioned above rather than use this toolbox.
Best, Rasmus.
DeepLearnToolbox
================
A Matlab toolbox for Deep Learning.
Deep Learning is a new subfield of machine learning that focuses on learning deep hierarchical models of data.
It is inspired by the human brain's apparent deep (layered, hierarchical) architecture.
A good overview of the theory of Deep Learning theory is
[Learning Deep Architectures for AI](http://www.iro.umontreal.ca/~bengioy/papers/ftml_book.pdf)
For a more informal introduction, see the following videos by Geoffrey Hinton and Andrew Ng.
* [The Next Generation of Neural Networks](http://www.youtube.com/watch?v=AyzOUbkUf3M) (Hinton, 2007)
* [Recent Developments in Deep Learning](http://www.youtube.com/watch?v=VdIURAu1-aU) (Hinton, 2010)
* [Unsupervised Feature Learning and Deep Learning](http://www.youtube.com/watch?v=ZmNOAtZIgIk) (Ng, 2011)
If you use this toolbox in your research please cite [Prediction as a candidate for learning deep hierarchical models of data](http://www2.imm.dtu.dk/pubdb/views/publication_details.php?id=6284)
```
@MASTERSTHESIS\{IMM2012-06284,
author = "R. B. Palm",
title = "Prediction as a candidate for learning deep hierarchical models of data",
year = "2012",
}
```
Contact: rasmusbergpalm at gmail dot com
Directories included in the toolbox
-----------------------------------
`NN/` - A library for Feedforward Backpropagation Neural Networks
`CNN/` - A library for Convolutional Neural Networks
`DBN/` - A library for Deep Belief Networks
`SAE/` - A library for Stacked Auto-Encoders
`CAE/` - A library for Convolutional Auto-Encoders
`util/` - Utility functions used by the libraries
`data/` - Data used by the examples
`tests/` - unit tests to verify toolbox is working
For references on each library check REFS.md
Setup
-----
1. Download.
2. addpath(genpath('DeepLearnToolbox'));
Example: Deep Belief Network
---------------------
```matlab
function test_example_DBN
load mnist_uint8;
train_x = double(train_x) / 255;
test_x = double(test_x) / 255;
train_y = double(train_y);
test_y = double(test_y);
%% ex1 train a 100 hidden unit RBM and visualize its weights
rand('state',0)
dbn.sizes = [100];
opts.numepochs = 1;
opts.batchsize = 100;
opts.momentum = 0;
opts.alpha = 1;
dbn = dbnsetup(dbn, train_x, opts);
dbn = dbntrain(dbn, train_x, opts);
figure; visualize(dbn.rbm{1}.W'); % Visualize the RBM weights
%% ex2 train a 100-100 hidden unit DBN and use its weights to initialize a NN
rand('state',0)
%train dbn
dbn.sizes = [100 100];
opts.numepochs = 1;
opts.batchsize = 100;
opts.momentum = 0;
opts.alpha = 1;
dbn = dbnsetup(dbn, train_x, opts);
dbn = dbntrain(dbn, train_x, opts);
%unfold dbn to nn
nn = dbnunfoldtonn(dbn, 10);
nn.activation_function = 'sigm';
%train nn
opts.numepochs = 1;
opts.batchsize = 100;
nn = nntrain(nn, train_x, train_y, opts);
[er, bad] = nntest(nn, test_x, test_y);
assert(er < 0.10, 'Too big error');
```
Example: Stacked Auto-Encoders
---------------------
```matlab
function test_example_SAE
load mnist_uint8;
train_x = double(train_x)/255;
test_x = double(test_x)/255;
train_y = double(train_y);
test_y = double(test_y);
%% ex1 train a 100 hidden unit SDAE and use it to initialize a FFNN
% Setup and train a stacked denoising autoencoder (SDAE)
rand('state',0)
sae = saesetup([784 100]);
sae.ae{1}.activation_function = 'sigm';
sae.ae{1}.learningRate = 1;
sae.ae{1}.inputZeroMaskedFraction = 0.5;
opts.numepochs = 1;
opts.batchsize = 100;
sae = saetrain(sae, train_x, opts);
visualize(sae.ae{1}.W{1}(:,2:end)')
% Use the SDAE to initialize a FFNN
nn = nnsetup([784 100 10]);
nn.activation_function = 'sigm';
nn.learningRate = 1;
nn.W{1} = sae.ae{1}.W{1};
% Train the FFNN
opts.numepochs = 1;
opts.batchsize = 100;
nn = nntrain(nn, train_x, train_y, opts);
[er, bad] = nntest(nn, test_x, test_y);
assert(er < 0.16, 'Too big error');
```
Example: Convolutional Neural Nets
---------------------
```matlab
function test_example_CNN
load mnist_uint8;
train_x = double(reshape(train_x',28,28,60000))/255;
test_x = double(reshape(test_x',28,28,10000))/255;
train_y = double(train_y');
test_y = double(test_y');
%% ex1 Train a 6c-2s-12c-2s Convolutional neural network
%will run 1 epoch in about 200 second and get around 11% error.
%With 100 epochs you'll get around 1.2% error
rand('state',0)
cnn.layers = {
struct('type', 'i') %input layer
struct('type', 'c', 'outputmaps', 6, 'kernelsize', 5) %convolution layer
struct('type', 's', 'scale', 2) %sub sampling layer
struct('type', 'c', 'outputmaps', 12, 'kernelsize', 5) %convolution layer
struct('type', 's', 'scale', 2) %subsampling layer
};
cnn = cnnsetup(cnn, train_x, train_y);
opts.alpha = 1;
opts.batchsize = 50;
opts.numepochs = 1;
cnn = cnntrain(cnn, train_x, train_y, opts);
[er, bad] = cnntest(cnn, test_x, test_y);
%plot mean squared error
figure; plot(cnn.rL);
assert(er<0.12, 'Too big error');
```
Example: Neural Networks
---------------------
```matlab
function test_example_NN
load mnist_uint8;
train_x = double(train_x) / 255;
test_x = double(test_x) / 255;
train_y = double(train_y);
test_y = double(test_y);
% normalize
[train_x, mu, sigma] = zscore(train_x);
test_x = normalize(test_x, mu, sigma);
%% ex1 vanilla neural net
rand('state',0)
nn = nnsetup([784 100 10]);
opts.numepochs = 1; % Number of full sweeps through data
opts.batchsize = 100; % Take a mean gradient step over this many samples
[nn, L] = nntrain(nn, train_x, train_y, opts);
[er, bad] = nntest(nn, test_x, test_y);
assert(er < 0.08, 'Too big error');
%% ex2 neural net with L2 weight decay
rand('state',0)
nn = nnsetup([784 100 10]);
nn.weightPenaltyL2 = 1e-4; % L2 weight decay
opts.numepochs = 1; % Number of full sweeps through data
opts.batchsize = 100; % Take a mean gradient step over this many samples
nn = nntrain(nn, train_x, train_y, opts);
[er, bad] = nntest(nn, test_x, test_y);
assert(er < 0.1, 'Too big error');
%% ex3 neural net with dropout
rand('state',0)
nn = nnsetup([784 100 10]);
nn.dropoutFraction = 0.5; % Dropout fraction
opts.numepochs = 1; % Number of full sweeps through data
opts.batchsize = 100; % Take a mean gradient step over this many samples
nn = nntrain(nn, train_x, train_y, opts);
[er, bad] = nntest(nn, test_x, test_y);
assert(er < 0.1, 'Too big error');
%% ex4 neural net with sigmoid activation function
rand('state',0)
nn = nnsetup([784 100 10]);
nn.activation_function = 'sigm'; % Sigmoid activation function
nn.learningRate = 1; % Sigm require a lower learning rate
opts.numepochs = 1; % Number of full sweeps through data
opts.batchsize = 100; % Take a mean gradient step over this many samples
nn = nntrain(nn, train_x, train_y, opts);
[er, bad] = nntest(nn, test_x, test_y);
assert(er < 0.1, 'Too big error');
%% ex5 plotting functionality
rand('state',0)
nn = nnsetup([784 20 10]);
opts.numepochs = 5; % Number of full sweeps through data
nn.output = 'softmax'; % use softmax output
opts.batchsize = 1000; % Take a mean gradient step over this many samples
opts.plot = 1; % enable plotting
nn = nntrain(nn, train_x, train_y, opts);
[er, bad] = nntest(nn, test_x, test_y);
assert(er < 0.1, 'Too big error');
%% ex6 neural net with sigmoid activation and plotting of validation and training error
% split training data into training and validation data
vx = train_x(1:10
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deeplearning-matlab程序,内含CNN、DBN、CAE、SAE等
共74个文件
m:66个
md:4个
license:1个
需积分: 43 125 下载量 159 浏览量
2018-08-17
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deeplearning-matlab程序,内含CNN、DBN、CAE、SAE等,比较适合初学者,可控参数多,自己用过,代码全,不缺函数。
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收起资源包目录
DeepLearnToolbox-master.rar (74个子文件)
DeepLearnToolbox-master
.travis.yml 249B
NN
nnupdatefigures.m 2KB
nnsetup.m 2KB
nnpredict.m 192B
nnbp.m 2KB
nneval.m 811B
nntrain.m 2KB
nnapplygrads.m 628B
nnff.m 2KB
nnchecknumgrad.m 704B
nntest.m 184B
DBN
dbntrain.m 232B
dbnunfoldtonn.m 425B
rbmtrain.m 1KB
rbmup.m 89B
rbmdown.m 90B
dbnsetup.m 557B
data
mnist_uint8.mat 14.05MB
CNN
cnnnumgradcheck.m 3KB
cnnsetup.m 2KB
cnnff.m 2KB
cnntrain.m 845B
cnnapplygrads.m 575B
cnnbp.m 2KB
cnntest.m 193B
tests
test_cnn_gradients_are_numerically_correct.m 552B
test_example_NN.m 3KB
test_example_CNN.m 981B
test_nn_gradients_are_numerically_correct.m 749B
test_example_DBN.m 1KB
runalltests.m 165B
test_example_SAE.m 934B
LICENSE 1KB
CONTRIBUTING.md 544B
CAE
caeapplygrads.m 1KB
caebp.m 1011B
scaesetup.m 2KB
caebbp.m 917B
caeup.m 489B
caenumgradcheck.m 4KB
caesdlm.m 845B
scaetrain.m 270B
max3d.m 173B
caetrain.m 1KB
caedown.m 259B
caeexamples.m 754B
SAE
saesetup.m 132B
saetrain.m 308B
README_header.md 2KB
REFS.md 950B
README.md 9KB
util
softmax.m 256B
im2patches.m 313B
patches2im.m 242B
makeLMfilters.m 2KB
expand.m 2KB
flicker.m 208B
whiten.m 183B
visualize.m 1KB
randp.m 2KB
fliplrf.m 543B
tanh_opt.m 54B
allcomb.m 3KB
normalize.m 97B
randcorr.m 283B
myOctaveVersion.m 169B
isOctave.m 108B
sigm.m 48B
rnd.m 49B
zscore.m 137B
flipall.m 80B
flipudf.m 576B
sigmrnd.m 126B
create_readme.sh 744B
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