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A non-linear learning & classification algorithm that achieves full training accuracy with stellar classification accuracy

Computer Vision and Pattern Recognition 2014-11-03 v2 Machine Learning

Abstract

A fast Non-linear and non-iterative learning and classification algorithm is synthesized and validated. This algorithm named the "Reverse Ripple Effect(R.R.E)", achieves 100% learning accuracy but is computationally expensive upon classification. The R.R.E is a (deterministic) algorithm that super imposes Gaussian weighted functions on training points. In this work, the R.R.E algorithm is compared against known learning and classification techniques/algorithms such as: the Perceptron Criterion algorithm, Linear Support Vector machines, the Linear Fisher Discriminant and a simple Neural Network. The classification accuracy of the R.R.E algorithm is evaluated using simulations conducted in MATLAB. The R.R.E algorithm's behaviour is analyzed under linearly and non-linearly separable data sets. For the comparison with the Neural Network, the classical XOR problem is considered.

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Cite

@article{arxiv.1409.6440,
  title  = {A non-linear learning & classification algorithm that achieves full training accuracy with stellar classification accuracy},
  author = {Rashid Khogali},
  journal= {arXiv preprint arXiv:1409.6440},
  year   = {2014}
}

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43 Pages

R2 v1 2026-06-22T06:03:10.640Z