C-RNN dual output regression

Question

Daeyeon Koh am 19 Mai 2024

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https://de.mathworks.com/matlabcentral/answers/2120406-c-rnn-dual-output-regression

Beantwortet: Angelo Yeo am 20 Mai 2024

Hi. I am writing a C-RNN regression learning code with single matrix input - dual scalar output. The loaded "paddedData2.mat" file is saved as paddedData, and it is stored as an N X 3 cell, as shown in the attached image. The input matrix used for training is the 3rd column of paddedData, which is [440 5] double, and the regression variable is the values in the 1st column. With this, I plan to create features of size [436 1] using two [3 3] kernels of convolution and train them using LSTM. The code is as follows. But it doesn't work and the error code "trainnet (line 46), Error forming mini-batch of targets for network output "fc_1". Data interpreted with format "BC". To specify a different format use the TargetDataFormats option."

How can I modify the code?

clc;
clear all;
load("paddedData2.mat","-mat")
XTrain = paddedData(:,3);
YTrain1 = cell2mat(paddedData(:,1));
YTrain2 = cell2mat(paddedData(:,2));
dsX = arrayDatastore(XTrain, 'OutputType', 'same');
dsY1 = arrayDatastore(YTrain1, 'OutputType', 'same');
dsY2 = arrayDatastore(YTrain2, 'OutputType', 'same');
net = dlnetwork;
tempNet = [
    sequenceInputLayer([440 5 1],"Name","sequenceinput")
    convolution2dLayer([3 3],8,"Name","conv_A1")
    batchNormalizationLayer("Name","batchnorm_A1")
    reluLayer("Name","relu_A1")
    convolution2dLayer([3 3],8,"Name","conv_2")
    batchNormalizationLayer("Name","batchnorm_2")
    reluLayer("Name","relu_2")
    flattenLayer("Name","flatten")
    fullyConnectedLayer(100,"Name","fc")
    lstmLayer(100,"Name","lstm","OutputMode","last")];
net = addLayers(net,tempNet);
tempNet = fullyConnectedLayer(1,"Name","fc_1");
net = addLayers(net,tempNet);
tempNet = fullyConnectedLayer(1,"Name","fc_2");
net = addLayers(net,tempNet);
clear tempNet;
net = connectLayers(net,"lstm","fc_1");
net = connectLayers(net,"lstm","fc_2");
net = initialize(net);
 
options = trainingOptions('adam', ...
    'MaxEpochs', 2000, ...
    'MiniBatchSize', 100, ...
    'Shuffle', 'every-epoch', ...
    'Plots', 'training-progress');
lossFcn = @(Y1,Y2,dsY1,dsY2) crossentropy(Y1,dsY1) + 0.1*mse(Y2,dsY2);
net = trainnet(dsX, net, lossFcn, options);

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Answer 1

Angelo Yeo am 20 Mai 2024

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https://de.mathworks.com/matlabcentral/answers/2120406-c-rnn-dual-output-regression#answer_1460061

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The error message is like below.

Error using trainnet (line 46)

Error forming mini-batch of targets for network output "fc_1". Data interpreted with format "BC".

To specify a different format, use the TargetDataFormats option.

Error in main (line 52)

net = trainnet(dsX, net, lossFcn, options);

Caused by:

Index exceeds the number of array elements. Index must not exceed 1.

There are multiple sources for input and target. And, your code only provides dsX for trainnet.

If you want to use a neural network with multiple input or output, you can use combine to make a CombinedDatastore. This will help you solve the mini-batch issue.

clc; clear;
% load("paddedData2.mat","-mat")
paddedData = cell(10, 3); % Intentionally changed the #observations from 900 to 10 for reproduction purpose
paddedData(:,1) = cellfun(@(x) 405, paddedData(:,1), 'UniformOutput', false);
paddedData(:,2) = cellfun(@(x) 10, paddedData(:,2), 'UniformOutput', false);
paddedData(:,3) = cellfun(@(x) rand(440, 5), paddedData(:,3), 'UniformOutput', false);
XTrain = paddedData(:,3);
YTrain1 = cell2mat(paddedData(:,1));
YTrain2 = cell2mat(paddedData(:,2));
dsX = arrayDatastore(XTrain, 'OutputType', 'same');
dsY1 = arrayDatastore(YTrain1, 'OutputType', 'same');
dsY2 = arrayDatastore(YTrain2, 'OutputType', 'same');
dsTrain = combine(dsX, dsY1, dsY2);
net = dlnetwork;
tempNet = [
    sequenceInputLayer([440 5 1],"Name","sequenceinput")
    convolution2dLayer([3 3],8,"Name","conv_A1")
    batchNormalizationLayer("Name","batchnorm_A1")
    reluLayer("Name","relu_A1")
    convolution2dLayer([3 3],8,"Name","conv_2")
    batchNormalizationLayer("Name","batchnorm_2")
    reluLayer("Name","relu_2")
    flattenLayer("Name","flatten")
    fullyConnectedLayer(100,"Name","fc")
    lstmLayer(100,"Name","lstm","OutputMode","last")];
net = addLayers(net,tempNet);
tempNet = fullyConnectedLayer(1,"Name","fc_1");
net = addLayers(net,tempNet);
tempNet = fullyConnectedLayer(1,"Name","fc_2");
net = addLayers(net,tempNet);
clear tempNet;
net = connectLayers(net,"lstm","fc_1");
net = connectLayers(net,"lstm","fc_2");
net = initialize(net);
 
options = trainingOptions('adam', ...
    'MaxEpochs', 50, ...
    'MiniBatchSize', 100, ...
    'Shuffle', 'every-epoch', ...
    'Plots', 'none');
lossFcn = @(Y1,Y2,dsY1,dsY2) crossentropy(Y1,dsY1) + 0.1*mse(Y2,dsY2);
net = trainnet(dsTrain, net, lossFcn, options);
    Iteration    Epoch    TimeElapsed    LearnRate    TrainingLoss
    _________    _____    ___________    _________    ____________
            1        1       00:00:02        0.001          6461.7
           50       50       00:00:04        0.001         -162.05
Training stopped: Max epochs completed