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cnn_ucf101_spatial.m
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cnn_ucf101_spatial.m
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function cnn_ucf101_spatial(varargin)
if ~isempty(gcp('nocreate')),
delete(gcp)
end
opts = cnn_setup_environment();
opts.train.gpus = 1 ;
% opts.train.gpus = [ 1 : 3 ]
opts.dataSet = 'ucf101';
% opts.dataSet = 'hmdb51';
opts.train.memoryMapFile = fullfile(tempdir, 'ramdisk', ['matconvnet' num2str(feature('getpid')) '.bin']) ;
addpath('network_surgery');
opts.dataDir = fullfile(opts.dataPath, opts.dataSet) ;
opts.splitDir = [opts.dataSet '_splits'];
opts.nSplit = 1 ;
opts.dropOutRatio = 0 ;
opts.train.cheapResize = 0 ;
opts.inputdim = [ 224, 224, 3] ;
opts.train.batchSize = 256 ;
opts.train.numSubBatches = ceil(8 / max(numel(opts.train.gpus),1));
opts.train.epochFactor = 10 ;
opts.train.augmentation = 'borders25';
opts.train.backpropDepth = cell(1, 2);
opts.train.backpropDepth(:) = {'pool5'};
opts.train.learningRate = [1e-2*ones(1, 2) 1e-2*ones(1, 3) 1e-3*ones(1, 3) 1e-4*ones(1, 3)] ;
if strcmp(opts.dataSet, 'hmdb51')
opts.train.learningRate = [1e-2*ones(1, 2) 1e-2*ones(1, 1) 1e-3*ones(1, 1) 1e-4*ones(1, 1)] ;
end
model = ['img-res50-' opts.train.augmentation '-bs=' num2str(opts.train.batchSize) ...
'-split' num2str(opts.nSplit) '-dr' num2str(opts.dropOutRatio)];
if strfind(model, 'vgg16');
baseModel = 'imagenet-vgg-verydeep-16.mat' ;
opts.train.learningRate = [1e-3*ones(1, 3) 5e-4*ones(1, 5) 5e-5*ones(1,2) 5e-6*ones(1,2)] ;
opts.train.backpropDepth = cell(1, 3);
opts.train.backpropDepth(:) = {'layer37'};
opts.train.batchSize = 128 ;
opts.train.numSubBatches = ceil(16 / max(numel(opts.train.gpus),1));
elseif strfind(model, 'vgg-m');
baseModel = 'imagenet-vgg-m-2048.mat' ;
elseif strfind(model, 'res152');
baseModel = 'imagenet-resnet-152-dag.mat' ;
elseif strfind(model, 'res101');
baseModel = 'imagenet-resnet-101-dag.mat' ;
elseif strfind(model, 'res50');
baseModel = 'imagenet-resnet-50-dag.mat' ;
opts.train.numSubBatches = ceil(32 / max(numel(opts.train.gpus),1));
else
error('Unknown model %s', model) ;
end
opts.model = fullfile(opts.modelPath,baseModel) ;
opts.expDir = fullfile(opts.dataDir, [opts.dataSet '-' model]) ;
opts.imdbPath = fullfile(opts.dataDir, [opts.dataSet '_split' num2str(opts.nSplit) 'imdb.mat']);
opts.train.plotDiagnostics = 0 ;
opts.train.continue = 1 ;
opts.train.prefetch = 1 ;
opts.train.expDir = opts.expDir ;
opts.train.numAugments = 1;
opts.train.frameSample = 'random';
opts.train.nFramesPerVid = 1;
opts.train.uniformAugments = false;
[opts, varargin] = vl_argparse(opts, varargin) ;
% -------------------------------------------------------------------------
% Database initialization
% -------------------------------------------------------------------------
if exist(opts.imdbPath)
imdb = load(opts.imdbPath) ;
else
imdb = cnn_ucf101_setup_data('dataPath', opts.dataPath, 'flowDir',opts.flowDir, ...
'dataSet', opts.dataSet, 'nSplit', opts.nSplit) ;
save(opts.imdbPath, '-struct', 'imdb', '-v6') ;
end
nClasses = length(imdb.classes.name);
if ~exist(opts.model)
fprintf('Downloading base model file: %s ...\n', baseModel);
mkdir(fileparts(opts.model)) ;
urlwrite(...
['http://www.vlfeat.org/matconvnet/models/' baseModel], ...
opts.model) ;
end
net = load(opts.model);
if isfield(net, 'net'), net=net.net;end
if isstruct(net.layers)
% replace 1000-way imagenet classifiers
for p = 1 : numel(net.params)
sz = size(net.params(p).value);
if any(sz == 1000)
sz(sz == 1000) = nClasses;
fprintf('replace classifier layer of %s\n', net.params(p).name);
if numel(sz) > 2
net.params(p).value = 0.01 * randn(sz, class(net.params(p).value));
else
net.params(p).value = zeros(sz, class(net.params(p).value));
end
end
end
net.meta.normalization.border = [256 256] - net.meta.normalization.imageSize(1:2);
net = dagnn.DagNN.loadobj(net);
if strfind(model, 'bnorm')
net = insert_bnorm_layers(net) ;
end
else
% net=vl_simplenn_tidy(net);
if isfield(net, 'meta'),
netNorm = net.meta.normalization;
else
netNorm = net.normalization;
end
if(netNorm.imageSize(3) == 3) && ~isempty(strfind(opts.model, 'imagenet'))
netNorm.border = [256 256] - netNorm.imageSize(1:2);
net = replace_last_layer(net, [1 2], [1 2], nClasses, opts.dropOutRatio);
end
if strfind(model, 'bnorm')
net = insert_bnorm_layers(net) ;
end
net = dagnn.DagNN.fromSimpleNN(net) ;
end
net = dagnn.DagNN.setLrWd(net);
net.renameVar(net.vars(1).name, 'input');
if ~isnan(opts.dropOutRatio)
dr_layers = find(arrayfun(@(x) isa(x.block,'dagnn.DropOut'), net.layers)) ;
if ~isempty(dr_layers)
if opts.dropOutRatio > 0
for i=dr_layers, net.layers(i).block.rate = opts.dropOutRatio; end
else
net.removeLayer({net.layers(dr_layers).name});
end
else
if opts.dropOutRatio > 0
pool5_layer = find(arrayfun(@(x) isa(x.block,'dagnn.Pooling'), net.layers)) ;
conv_layers = pool5_layer(end);
for i=conv_layers
block = dagnn.DropOut() ; block.rate = opts.dropOutRatio ;
newName = ['drop_' net.layers(i).name];
net.addLayer(newName, ...
block, ...
net.layers(i).outputs, ...
{newName}) ;
for l = 1:numel(net.layers)-1
for f = net.layers(i).outputs
sel = find(strcmp(f, net.layers(l).inputs )) ;
if ~isempty(sel)
[net.layers(l).inputs{sel}] = deal(newName) ;
end
end
end
end
end
end
end
net.layers(~cellfun('isempty', strfind({net.layers(:).name}, 'err'))) = [] ;
opts.train.derOutputs = {} ;
for l=numel(net.layers):-1:1
if isa(net.layers(l).block, 'dagnn.Loss') && isempty(strfind(net.layers(l).name, 'err'))
opts.train.derOutputs = {opts.train.derOutputs{:}, net.layers(l).outputs{:}, 1} ;
end
if isa(net.layers(l).block, 'dagnn.SoftMax')
net.removeLayer(net.layers(l).name)
l = l - 1;
end
end
if isempty(opts.train.derOutputs)
net = dagnn.DagNN.insertLossLayers(net, 'numClasses', nClasses) ;
fprintf('setting derivative for layer %s \n', net.layers(end).name);
opts.train.derOutputs = {opts.train.derOutputs{:}, net.layers(end).outputs{:}, 1} ;
end
lossLayers = find(arrayfun(@(x) isa(x.block,'dagnn.Loss') && strcmp(x.block.loss,'softmaxlog'),net.layers));
net.addLayer('top1error', ...
dagnn.Loss('loss', 'classerror'), ...
net.layers(lossLayers(end)).inputs, ...
'top1error') ;
net.addLayer('top5error', ...
dagnn.Loss('loss', 'topkerror', 'opts', {'topK', 5}), ...
net.layers(lossLayers(end)).inputs, ...
'top5error') ;
net.print() ;
net.rebuild() ;
net.meta.normalization.rgbVariance = [];
opts.train.train = find(ismember(imdb.images.set, [1])) ;
opts.train.train = repmat(opts.train.train,1,opts.train.epochFactor);
opts.train.valmode = '250samples';
% opts.train.valmode = '30samples'
opts.train.denseEval = 1;
net.conserveMemory = 1 ;
fn = getBatchWrapper_ucf101_imgs(net.meta.normalization, opts.numFetchThreads, opts.train) ;
[info] = cnn_train_dag(net, imdb, fn, opts.train) ;
end