Machine learning approach for tool wear prediction with more input values than output values
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So I have simulation data of 4 process parameters(input/predictors) with 2724 time steps. These values result in a single wear value (output/response).
As input data I have a [2714x4] matrix and output data [1x1] .
Similarly I have many single wear values which are a result of many values of Input.
Is there a machine learning approach which can train data with more input value per output value?
Thanks in advance.
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Answers (1)
LeoAiE
on 10 May 2023
Yes, there is a machine learning approach to train your data with multiple input values per output value. In your case, you have multiple time steps of process parameters (predictors) that result in a single wear value (response). This can be treated as a regression problem.
A popular approach for this type of problem is using Recurrent Neural Networks (RNNs), specifically Long Short-Term Memory (LSTM) networks or Gated Recurrent Unit (GRU) networks. These networks are designed to handle time-series data and can learn patterns across different time steps.
Here's an example of how you can create an LSTM network using MATLAB and the Deep Learning Toolbox:
This code assumes you have already loaded your input data (2724x4 matrices) into a cell array named inputData and your output data (single wear values) into a row vector named outputData. The code then processes the data, creates an LSTM network, trains it, and makes predictions.
% Assuming inputData is a cell array where each cell contains a 2724x4 matrix
inputData = cat(3, inputData{:});
% Assuming outputData is a row vector
outputData = outputData';
% Split data into training and validation sets
trainRatio = 0.8;
numTrain = round(size(inputData, 3) * trainRatio);
trainInputData = inputData(:, :, 1:numTrain);
trainOutputData = outputData(1:numTrain);
valInputData = inputData(:, :, numTrain+1:end);
valOutputData = outputData(numTrain+1:end);
% Create LSTM network
numHiddenUnits = 100;
layers = [ ...
sequenceInputLayer(4)
lstmLayer(numHiddenUnits)
fullyConnectedLayer(1)
regressionLayer];
% Set up training options
options = trainingOptions('adam', ...
'MaxEpochs', 100, ...
'GradientThreshold', 1, ...
'InitialLearnRate', 0.005, ...
'LearnRateSchedule', 'piecewise', ...
'LearnRateDropPeriod', 125, ...
'LearnRateDropFactor', 0.2, ...
'ValidationData', {valInputData, valOutputData}, ...
'Verbose', 1, ...
'Plots', 'training-progress');
% Train the network
net = trainNetwork(trainInputData, trainOutputData, layers, options);
% Predict wear values
predictedOutputData = predict(net, inputData);
2 Comments
LeoAiE
on 11 May 2023
It's hard to help you without the data so most of the answers are just guessing! It seems there is a misunderstanding about the sequence length. Based on your problem description, it appears that you have a single output for a single set of 2724 input values, which would make this a standard supervised learning problem rather than a sequence-to-sequence problem. In this case, you should use a standard regression model instead of an LSTM.
Also the codes here are examples so you have to adjust accordingly to fit your needs
% Replace this with your actual data
X = rand(100, 2724); % 100 samples, each with 2724 input values
y = rand(100, 1); % 100 output values
% Split the data (80% for training and 20% for testing)
split_ratio = 0.8;
num_samples = size(X, 1);
num_train_samples = round(num_samples * split_ratio);
% Shuffle the data
rng('default'); % For reproducibility
shuffled_indices = randperm(num_samples);
X_shuffled = X(shuffled_indices, :);
y_shuffled = y(shuffled_indices);
% Split the data
X_train = X_shuffled(1:num_train_samples, :);
y_train = y_shuffled(1:num_train_samples);
X_test = X_shuffled(num_train_samples+1:end, :);
y_test = y_shuffled(num_train_samples+1:end);
% Train a linear regression model
mdl = fitlm(X_train, y_train);
% Test the model
y_pred = predict(mdl, X_test);
% Calculate the mean squared error
mse = mean((y_pred - y_test).^2);
disp(['Mean squared error: ', num2str(mse)]);
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