def classifier_larank_modular(fm_train_real=traindat,
                              fm_test_real=testdat,
                              label_train_multiclass=label_traindat,
                              C=0.9,
                              num_threads=1,
                              num_iter=5):

    from shogun.Features import RealFeatures, Labels
    from shogun.Kernel import GaussianKernel
    from shogun.Classifier import LaRank
    from shogun.Mathematics import Math_init_random
    Math_init_random(17)

    feats_train = RealFeatures(fm_train_real)
    feats_test = RealFeatures(fm_test_real)
    width = 2.1
    kernel = GaussianKernel(feats_train, feats_train, width)

    epsilon = 1e-5
    labels = Labels(label_train_multiclass)

    svm = LaRank(C, kernel, labels)
    #svm.set_tau(1e-3)
    svm.set_batch_mode(False)
    #svm.io.enable_progress()
    svm.set_epsilon(epsilon)
    svm.train()
    out = svm.apply(feats_train).get_labels()
    predictions = svm.apply()
    return predictions, svm, predictions.get_labels()
Exemplo n.º 2
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def classifier_larank_modular (fm_train_real=traindat,fm_test_real=testdat,label_train_multiclass=label_traindat,C=0.9,num_threads=1,num_iter=5):

	from shogun.Features import RealFeatures, Labels
	from shogun.Kernel import GaussianKernel
	from shogun.Classifier import LaRank
	from shogun.Library import Math_init_random
	Math_init_random(17)

	feats_train=RealFeatures(fm_train_real)
	feats_test=RealFeatures(fm_test_real)
	width=2.1
	kernel=GaussianKernel(feats_train, feats_train, width)

	epsilon=1e-5
	labels=Labels(label_train_multiclass)

	svm=LaRank(C, kernel, labels)
	#svm.set_tau(1e-3)
	svm.set_batch_mode(False)
	#svm.io.enable_progress()
	svm.set_epsilon(epsilon)
	svm.train()
	out=svm.classify(feats_train).get_labels()
	predictions = svm.classify()
	return predictions, svm, predictions.get_labels()
Exemplo n.º 3
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def classifier_larank_modular (num_vec,num_class,distance,C=0.9,num_threads=1,num_iter=5,seed=1):
	from shogun.Features import RealFeatures, MulticlassLabels
	from shogun.Kernel import GaussianKernel
	from shogun.Classifier import LaRank
	from shogun.Mathematics import Math_init_random
	
	# reproducible results
	Math_init_random(seed)
	random.seed(seed)

	# generate some training data where each class pair is linearly separable
	label_train=array([mod(x,num_class) for x in range(num_vec)],dtype="float64")
	label_test=array([mod(x,num_class) for x in range(num_vec)],dtype="float64")
	fm_train=array(random.randn(num_class,num_vec))
	fm_test=array(random.randn(num_class,num_vec))
	for i in range(len(label_train)):
		fm_train[label_train[i],i]+=distance
		fm_test[label_test[i],i]+=distance

	feats_train=RealFeatures(fm_train)
	feats_test=RealFeatures(fm_test)
	
	width=2.1
	kernel=GaussianKernel(feats_train, feats_train, width)

	epsilon=1e-5
	labels=MulticlassLabels(label_train)

	svm=LaRank(C, kernel, labels)
	#svm.set_tau(1e-3)
	svm.set_batch_mode(False)
	#svm.io.enable_progress()
	svm.set_epsilon(epsilon)
	svm.train()
	out=svm.apply(feats_test).get_labels()
	predictions = svm.apply()
	return predictions, svm, predictions.get_labels()
def larank ():
	print 'LaRank'

	from shogun.Features import RealFeatures, Labels
	from shogun.Kernel import GaussianKernel
	from shogun.Classifier import LaRank

	feats_train=RealFeatures(fm_train_real)
	feats_test=RealFeatures(fm_test_real)
	width=2.1
	kernel=GaussianKernel(feats_train, feats_train, width)

	C=1
	epsilon=1e-5
	labels=Labels(label_train_multiclass)

	svm=LaRank(C, kernel, labels)
	#svm.set_tau(1e-3)
	#svm.set_batch_mode(False)
	#svm.io.enable_progress()
	svm.set_epsilon(epsilon)
	svm.train()
	out=svm.classify(feats_train).get_labels()