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Matlab Sigmoid Perceptron Linear Training Small, Round Blue-Cell Tumor Classification Example

Matlab Sigmoid Perceptron Linear Training Small, Round Blue-Cell Tumor Classification Example Matlab Program for NN Analysis Algebraic Training of a Neural Network. You can use various shapes of non-linear neurons in Neural Networks. Perceptron Neural Networks.

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Matlab Sigmoid Perceptron Linear Training Small, Round Blue-Cell Tumor Classification Example

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  1. Matlab • Sigmoid • Perceptron • Linear • Training • Small, Round Blue-Cell Tumor Classification Example • Matlab Program for NN Analysis • Algebraic Training of a Neural Network

  2. You can use various shapes of non-linear neurons in Neural Networks

  3. Perceptron Neural Networks

  4. Biases versus Weights in Perceptrons

  5. Multi-Layer Perceptrons can classify with Boundaries and Clusters • Multi-layer perceptrons have more powerful classification capabilities • Based on number of layers and elements used we can make a classification of classifiers • We can find open and closed regions in classifications. • The next slide will show various strengths of classifiers.

  6. Sigmoid Neural Networks

  7. Smooth nonlinearity! Logsig = logistic sigmoid

  8. Sigmoid Neural Network

  9. Single Sigmoid Layer is Sufficient for any continuous function!

  10. Typical Sigmoid Neural Network Output – create your own mapping • Sigmoid gives arbitrary accuracy!

  11. Thresholded Neural Network Output • Strict YES / NO decision is sometimes useful

  12. Linear Neural Networks

  13. Training Error and Cost for a Single Linear Neuron Training error Quadratic error cost

  14. Linear Neuron Gradient Training error Quadratic error cost Single Linear Neuron

  15. Steepest-Descent Learning for a Single Linear Neuron New training parameter

  16. Backpropagation – for a Single Linear Neuron

  17. Backpropagationfor a Single Linear Neuron Training Sets

  18. Example: Microarray Training Set

  19. Steepest-Descent Algorithm for a Single-Step Perceptron

  20. Training Sigmoid Networks

  21. Training Variables for a Single Sigmoid Neuron

  22. Training a Single Sigmoid Neuron

  23. Training a Single Sigmoid Neuron Final formula for weights and biases

  24. Training a Sigmoid Network

  25. Training a Sigmoid Network

  26. Training a Sigmoid Network From previous slides

  27. Example of Classification done by a Neural Network • 62 samples from microarray • 7000 genes • 8 genes in strong feature set

  28. Small, Round Blue-Cell Tumor Classification Example

  29. Small, Round Blue-Cell Tumor Classification Example

  30. How the training set was created?

  31. Neural Network Training for the SRBCT problem • Characteristics of training method for SRBCT

  32. “Leave-One-Out” – another validation methodology

  33. “Novel-Set” Validation methodology

  34. Characteristics of methods applied

  35. Cardiac Pacemaker and EKG Signals

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