Abstract
Supervised learning algorithms, often used to find the I/O relationship in data, have the tendency to be trapped in local optima as opposed to the desirable global optima. In this paper, we discuss the Recursive Percentage based Hybrid Pattern (RPHP) learning algorithm. The algorithm uses Real Coded Genetic Algorithm based global and local searches to find a set of pseudo global optimal solutions. Each pseudo global optimum is a local optimal solution from the point of view of all the patterns but globally optimal from the point of view of a subset of patterns. Together with RPHP, a Kth nearest neighbor algorithm is used as a second level pattern distributor to solve a test pattern. We also show theoretically the condition under which finding several pseudo global optimal solutions requires a shorter training time than finding a single global optimal solution. As the difficulty of curve fitting problems is easily estimated, we verify the capability of the RPHP algorithm against them and compare the RPHP algorithm with three counterparts to show the benefits of hybrid learning and active recursive subset selection. The RPHP shows a clear superiority in performance. We conclude our paper by identifying possible loopholes in the RPHP algorithm and proposing possible solutions.
Original language | English |
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Pages (from-to) | 137-164 |
Number of pages | 28 |
Journal | Neural, Parallel and Scientific Computations |
Volume | 15 |
Issue number | 2 |
Publication status | Published - Jun 2007 |
Externally published | Yes |
Keywords
- Data oriented training
- Evolutionary algorithms
- Hybrid learning
- Pattern learning
- Subset finding
- Task decomposition