代码搜索:Classify

找到约 2,639 项符合「Classify」的源代码

代码结果 2,639
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www.eeworm.com/read/474600/6813575

m pocket.m

function [test_targets, w_pocket] = Pocket(train_patterns, train_targets, test_patterns, alg_param) % Classify using the pocket algorithm (an improvement on the perceptron) % Inputs: % train_pat
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www.eeworm.com/read/474600/6813579

m gibbs.m

function test_targets = Gibbs(train_patterns, train_targets, test_patterns, Ndiv) % Classify using the Gibbs algorithm % Inputs: % train_patterns - Train patterns % train_targets - Train target
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www.eeworm.com/read/474600/6813581

m stumps.m

function [test_targets, w] = Stumps(train_patterns, train_targets, test_patterns, params) % Classify using simple stumps algorithm % Inputs: % train_patterns - Train patterns % train_targets -
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www.eeworm.com/read/474600/6813584

asv em.asv

function [test_targets, param_struct] = EM(train_patterns, train_targets, test_patterns, Ngaussians) % Classify using the expectation-maximization algorithm % Inputs: % train_patterns - Train pa
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www.eeworm.com/read/294743/8209440

m 决策树代码.m

matlab 决策树cart算法源代码 function D = CART(train_features, train_targets, params, region) % Classify using classification and regression trees % Inputs: % features - Train features % targets - Trai
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www.eeworm.com/read/415311/11077048

m id3.m

function D = ID3(train_features, train_targets, params, region) % Classify using Quinlan's ID3 algorithm % Inputs: % features - Train features % targets - Train targets % params - [Number
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www.eeworm.com/read/268134/11150994

m gibbs.m

function test_targets = Gibbs(train_patterns, train_targets, test_patterns, Ndiv) % Classify using the Gibbs algorithm % Inputs: % train_patterns - Train patterns % train_targets - Train target
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www.eeworm.com/read/268129/11151059

m em.m

function [test_targets, param_struct] = EM(train_patterns, train_targets, test_patterns, Ngaussians) % Classify using the expectation-maximization algorithm % Inputs: % train_patterns - Train pa
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www.eeworm.com/read/191902/8417140

m nddf.m

function [D, g0, g1] = NDDF(train_features, train_targets, cost, region, test_feature) % Classify using the normal density discriminant function % Inputs: % features - Train features % target
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www.eeworm.com/read/286662/8751607

m ls.m

function [test_targets, w] = LS(train_patterns, train_targets, test_patterns, weights) % Classify using the least-squares algorithm % Inputs: % train_patterns - Train patterns % train_targets
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