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Intelligent Vehicle Power Management Using Machine Learning and Fuzzy Logic
| 题名: | Intelligent Vehicle Power Management Using Machine Learning and Fuzzy Logic |
| 作者: | Chen, ZhiHang;Masrur, M A;Murphey, Yi L; |
| 关键词: | FUZZY LOGIC, ZFUZZY LOGICZ, ENGINES, ZENGINESZ, GROUND VEHICLES, ZGROUND VEHICLESZ, POWER SUPPLIES, ZPOWER SUPPLIESZ, OPTIMIZATION, ZOPTIMIZATIONZ, LEARNING MACHINES, ZLEARNING MACHINESZ, LOSSES, ZLOSSESZ, CONTROL SYSTEMS, ZCONTROL SYSTEMSZ, SYMPOSIA, ZSY |
| 摘要: | We present our research in optimal power management for a generic vehicle power system that has multiple power sources using machine learning and fuzzy logic. A machine learning algorithm, LOPPS, has been developed to learn about optimal power source combinations with respect to minimum power loss for all possible load requests and various system power states. The results generated by the LOPPS are used to build a fuzzy power controller (FPC). FPC is integrated into a simulation program implemented by using a generic simulation software as indicated in reference [22] and is used to dynamically allocate optimal power sources during online drive. The simulation results generated by FPC show that the proposed machine learning algorithm combined with fuzzy logic is a promising technology for vehicle power management. |
| 总页数: | 9 Pages(s) |
| 报告类型: | 科技报告 |
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