Chemical Optimization Algorithm for Fuzzy Controller Design by Leslie Astudillo, Patricia Melin, Oscar Castillo.
السلاسل: SpringerBriefs in Applied Sciences and Technologyتفاصيل النشر: New York : Springer, 2014.الوصف: 77 p. ; 24 cmردمك:- 9783319052458
- 9783319052441 (print)
- 006.3 23 ALC
كتاب
مراجعات من LibraryThing.com:
| المكتبة الحالية | رقم الاستدعاء | رقم النسخة | حالة | الباركود | |
|---|---|---|---|---|---|
| المكتبة المركزية بالمجمعة (CL) | 006.3 ALC (استعراض الرف(يفتح أدناه)) | 2 | المتاح | 00212396 | |
| المكتبة المركزية بالمجمعة (CL) | 006.3 ALC (استعراض الرف(يفتح أدناه)) | 3 | المتاح | 00212397 | |
| المكتبة المركزية بالمجمعة (CL) | 006.3 ALC (استعراض الرف(يفتح أدناه)) | 1 | Not For Loan | 00212225 |
Includes bibliographical references and index.
Introduction -- Theory and Background -- Chemical Definitions -- The Proposed Chemical Reaction Algorithm -- Application Problems -- Simulation Results -- Conclusions.
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In this book, a novel optimization method inspired by a paradigm from nature is introduced. The chemical reactions are used as a paradigm to propose an optimization method that simulates these natural processes. The proposed algorithm is described in detail and then a set of typical complex benchmark functions is used to evaluate the performance of the algorithm. Simulation results show that the proposed optimization algorithm can outperform other methods in a set of benchmark functions. This chemical reaction optimization paradigm is also applied to solve the tracking problem for the dynamic model of a unicycle mobile robot by integrating a kinematic and a torque controller based on fuzzy logic theory. Computer simulations are presented confirming that this optimization paradigm is able to outperform other optimization techniques applied to this particular robot application
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