Abstract
The sample impoverishment problem in particle filters is investigated from the perspective of genetic algorithms. The contribution of this paper is in the proposal of a hybrid technique to mitigate sample impoverishment such that the number of particles required and hence the computation complexities are reduced. Studies are conducted through the use of Chebyshev inequality for the number of particles required. The relationship between the number of particles and the time for impoverishment is examined by considering the takeover phenomena as found in genetic algorithms. It is revealed that the sample impoverishment problem is caused by the resampling scheme in implementing the particle filter with a finite number of particles. The use of uniform or roulette-wheel sampling also contributes to the problem. Crossover operators from genetic algorithms are adopted to tackle the finite particle problem by re-defining or re-supplying impoverished particles during filter iterations. Effectiveness of the proposed approach is demonstrated by simulations for a monobot simultaneous localization and mapping application.
| Original language | English |
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| Title of host publication | 2005 IEEE/RSJ International Conference on Intelligent Robots and Systems, 2005: IROS 2005 |
| Publisher | IEEE |
| Number of pages | 6 |
| ISBN (Print) | 0780389131 |
| Publication status | Published - 2005 |
| Event | IEEE/RSJ International Conference on Intelligent Robots and Systems - Duration: 1 Jan 2005 → … |
Conference
| Conference | IEEE/RSJ International Conference on Intelligent Robots and Systems |
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| Period | 1/01/05 → … |
Keywords
- Chebyshev approximation
- computational complexity
- genetic algorithms
- particle filters
- particles
- sampling