seqmlp.m

如果你看过神经模糊与软运算这本书,相信你一定想得到它的源代码.

function [W1, W2, RMSE] = seqmlp(trn_data, mlp_config, train_opt, disp_opt)
% SEQMLP On-line steepest descent for MLP with hyperbolic tangent activation.
%	[W1, W2, RMSE] = tanmlp(trn_data, mlp_config, train_opt).
%
%	See also MLPDM1 and MLPDM2.

% Roger Jang, Feb 6, 1999

% Set up default input arguments
if nargin < 4, disp_opt = 1; end
if nargin < 3, train_opt = [0.1 0.1 0.1 500]; end
if nargin < 2, mlp_config = [2 2 1]; end
if nargin < 1, trn_data = [-1 -1 -1; -1 1 1; 1 -1 1; 1 1 -1]; end

error_goal = train_opt(1);	% Stop if batch RMSE is below error_goal
eta = train_opt(2);		% Learning rate
alpha = train_opt(3);		% Momentum term
max_epoch = train_opt(4);	% Max. training epochs
in_n = mlp_config(1);		% Number of inputs
hidden_n = mlp_config(2);	% Number of hidden units
out_n = mlp_config(3);		% Number of outputs

weight_range = .5;		% Range for initial weights
[data_n, col_n] = size(trn_data);
if in_n + out_n ~= col_n,
	error('Given data mismatches given I/O numbers!');
end
INPUT = trn_data(:, 1:in_n);			% input
TARGET = trn_data(:, in_n+1:in_n+out_n);	% target

% ====== Initialize weights
W1 = weight_range*2*(randn(in_n+1,hidden_n) - 0.5);	% last row: bias
W2 = weight_range*2*(randn(hidden_n+1,out_n) - 0.5);	% last row: bias
dW1_old = zeros(size(W1));
dW2_old = zeros(size(W2));
one = 1;
RMSE = -ones(max_epoch, 1);	% Root mean squared error

for i = 1:max_epoch,
    for j = 1:data_n,
	X0 = INPUT(j,:);
	T = TARGET(j,:);

	% Forward pass
	X1 = tanh([X0 one]*W1);	% Output of layer 1 (hidden layer)
	X2 = tanh([X1 one]*W2);	% Output of layer 2 (output layer)

	% Backward pass for the output layer
	dE_dX2 = -2*(T - X2);	% dE/dX1
	dE_dW2 = [X1 one]'*(dE_dX2.*(1+X2).*(1-X2));
	% Backward pass for the hidden layer
	dE_dX1 = dE_dX2.*(1-X2).*(1+X2)*W2(1:hidden_n,:)';	% dE/dX1
	dE_dW1 = [X0 one]'*(dE_dX1.*(1+X1).*(1-X1));

	% Update parameters
	dW2 = -eta*dE_dW2 + alpha*dW2_old;
	dW1 = -eta*dE_dW1 + alpha*dW1_old;
	W2 = W2 + dW2;
	W1 = W1 + dW1;
	dW2_old = dW2;
	dW1_old = dW1;
    end
    % Compute the batch RMSE error
    X1 = tanh([INPUT ones(data_n,1)]*W1);% Output of layer 1 (hidden layer)
    X2 = tanh([X1 ones(data_n,1)]*W2);	% Output of layer 2 (output layer)
    diff = TARGET - X2;	% error
    RMSE(i) = sqrt(sum(sum(diff.^2))/length(diff(:)));
    if disp_opt==1, 
	fprintf('epoch %.0f:  RMSE = %.3f\n',i, RMSE(i));
    end
    % Check if finished 
    if RMSE(i)<error_goal, break; end
end

RMSE(find(RMSE==-1)) = [];	% Get rid of extra elements in RMSE.

if disp_opt==1,
	fprintf('\nTotal number of epochs: %g\n', i);
	fprintf('Final RMSE: %g\n', RMSE(i));
	plot(1:length(RMSE), RMSE, '-', 1:length(RMSE), RMSE, 'o');
	xlabel('Epochs'); ylabel('Batch RMSE');
end