IFQP: A hybrid optimization method for filter management in fluid power systems under uncertainty |
| |
| Authors: | S. L. Nie Y. P. Li Z. B. Xiong G. H. Huang B. Hu |
| |
| Affiliation: | 1. College of Mechanical Engineering and Applied Electronics Technology , Beijing University of Technology , Beijing, China niesonglin@bjut.edu.cn;3. College of Urban and Environmental Sciences , Peking University , Beijing, China;4. College of Mechanical Engineering and Applied Electronics Technology , Beijing University of Technology , Beijing, China;5. Faculty of Engineering , University of Regina , Regina, Saskatchewan, Canada |
| |
| Abstract: | An interval-fuzzy quadratic programming (IFQP) method is developed for the assessment of filter allocation and replacement strategies in fluid power systems (FPS) under uncertainty. It can directly handle uncertainties expressed as interval values and/or fuzzy sets that exist in the left-hand and right-hand sides of constraints, as well as in the objective function. Multiple control variables are used to tackle independent uncertainties in the model's right-hand sides and thus optimize the overall satisfaction of the system performance. The IFQP method is applied to a case of planning filter allocation and replacement strategies under uncertainty for an FPS with a single circuit. A piecewise linearization approach is firstly employed to convert the nonlinear FPS problem into a linear one. The generated decision alternatives can help decision makers to identify desired policies for contamination control under various total costs, satisfaction degrees, and system-failure risks under different contaminant-ingression/generation rates. |
| |
| Keywords: | contamination control fluid power system fuzzy quadratic interval uncertainty |
|
|
