研究生: |
李桂香 Kwai-Shaing Lee |
---|---|
論文名稱: |
植基於遺傳演算法之多階模糊控制器設計 Design of Multistage Fuzzy Controllers Based on Genetic Algorithm |
指導教授: |
葉榮木
Yeh, Zong-Mu |
學位類別: |
碩士 Master |
系所名稱: |
工業教育學系 Department of Industrial Education |
論文出版年: | 2001 |
畢業學年度: | 89 |
語文別: | 中文 |
論文頁數: | 120 |
中文關鍵詞: | 多階模糊控制器 、遺傳演算法 、倒單擺 、規則產生函數 |
英文關鍵詞: | Multistage Fuzzy Logic Controller, Genetic Algorithm, Inverted pendulum, Rule Generation Function |
論文種類: | 學術論文 |
相關次數: | 點閱:490 下載:10 |
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本論文將針對大規模的複雜受控系統,提出一個植基於遺傳演算法(Genetic Algorithm)的多階模糊控制器(Multistage Fuzzy Logic Controller)之設計方法,主要目的在於藉由多階模糊控制器大量地減少所需規則數,並利用遺傳演算法設計多階模糊控制器的參數,免於以費時的嘗試錯誤法(Trail and Error)設計控制器。
多階模糊控制器需要設計的參數包括了規則庫、輸出/入變數的歸屬函數和調整因子三種參數,本論文將選定由遺傳演算法搜尋調整因子、以專家設計或是由專家設計後再以遺傳演算法調整歸屬函數、以規則產生函數(Rule Generation Function)或是由遺傳演算法產生規則庫等四種不同的控制器參數設計要求,結合非對稱性樹(Skew Tree)和二元樹(Binary Tree)二種多階模糊控制器架構,因此,共設計八個植基於遺傳演算法之多階模糊控制器,最後並以倒單擺滑車系統比較其控制性能。
電腦模擬結果顯示,這八個多階模糊控制器都具有良好的控制性能,因此,可證實本論文所提的方法能提供系統性的方式設計多階模糊控制器。
關鍵字:多階模糊控制器、遺傳演算法、倒單擺、規則產生函數
This paper proposes a genetic algorithm (GA) approach to design a multistage fuzzy logic controller for large-scale and complex control system. The main purpose of this paper is to decrease the large number of rules by using multistage fuzzy logic controller , and adopt the genetic algorithm method to design the parameter on multistage fuzzy controller. This can get rid of trial and error approach on controller design.
There are three kinds of parameters on multistage fuzzy logic controller. It includes the rule base, input/output variables of membership function and scaling factors. The scaling factor are designed by GA , the membership function is determined by expert or regulated by GA after expert design , and the rule bases are generated by two ways:one is generated by rule generation function , the other is generated by GA . This can be found the four kinds of types in parameter design , and these four types of parameter design can be combined with two kinds of framework (Skew tree and Binary tree). Therefore there are eight kinds of multistage fuzzy logic controllers on the basis of GA , and we compared their performance in pendulum-cart system.
The results of simulation show that all of the multistage fuzzy controllers have good performance. The proposed approach provide a systematic way to design multistage fuzzy logic controller.
Keywords:Multistage Fuzzy Logic Controller、Genetic Algorithm、Inverted pendulum、Rule Generation Function
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