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Intelligent System for Engine Tribological Design, Volume 46 [Hardback]

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(Mechanical Engineering and Mobile Dept, Hefei University of Technology, China), (State Key Laboratory of Tribology, Tsinghua University, Beijing, China)
  • Formāts: Hardback, 212 pages, height x width: 240x165 mm, weight: 540 g
  • Sērija : Tribology and Interface Engineering
  • Izdošanas datums: 14-Jul-2004
  • Izdevniecība: Elsevier Science Ltd
  • ISBN-10: 0444517561
  • ISBN-13: 9780444517562
Citas grāmatas par šo tēmu:
Intelligent System for Engine Tribological Design, Volume 46Palielināt
  • Formāts: Hardback, 212 pages, height x width: 240x165 mm, weight: 540 g
  • Sērija : Tribology and Interface Engineering
  • Izdošanas datums: 14-Jul-2004
  • Izdevniecība: Elsevier Science Ltd
  • ISBN-10: 0444517561
  • ISBN-13: 9780444517562
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9780444517562.html
Keywords:
The internal combustion is widely used as a power source in engineering. As the demands placed upon engines have increased, tribology has come to play an increasingly important role in their development.

This book is a creative combination of intelligent design technology and the tribological design of engines: engine tribology, information science, artificial intelligence, non numerical algorithms, modern design technology and dynamics to propose new methodology and technology for tribological engine design. It not only presents an effective approach to l engine design but also explores a new pattern for research and l design methodology.

An essential reference for the design of more effective and efficient engines
Proposes new techniques for tribological engine design
Combines advanced design technologies with traditional tribological design methods
Engine Tribological Design Methodology and Intelligent System
A brief introduction to tribological design
1(7)
Tribological design of an internal combustion engine
8(5)
An investigation into tribological design methodology for engine
13(7)
Knowledge models for ICAD system
20(12)
Characteristics of the three types of knowledge models
32(1)
Summary
32(5)
General consideration of Tribological design of an engine
Tribological design for the bearing system of an engine
37(23)
Tribological design for the piston assembly of an engine
60(18)
Tribological design for the valve system of an engine
78(17)
A Symbol Model-based Intelligent System and its Implementation
Introduction to the implementation of an intelligent system
95(1)
Architecture of an intelligent system for engine tribological design
96(3)
Symbol models in engine tribological design
99(5)
Working principles of the ICADETD system
104(4)
Implementation of the ICADETD system
108(5)
A case study of the intelligent design of a valve train system
113(2)
Summary
115(2)
The Artificial Neural Network Model and its Application in ICADEDT
Introduction to the artificial neural network model
117(2)
BP net and its correlative variables
119(4)
ANN model in the ICADETD system
123(6)
Analysis of the trained ANN model for piston assembly and its results
129(3)
Summary
132(3)
Gene Model-based Comprehensive Decisions for Tribological Design
Non-normal design problems and comprehensive decision-making
135(3)
Evolutionary design and gene models
138(2)
A knowledge-embedded evolutionary design method
140(9)
Constraints in the tribological design of an internal combustion engine
149(5)
Objective function and design sample evaluation
154(2)
Application to a bearing system and its results
156(6)
Summary
162(3)
A Hierarchical Cooperative Evolutionary Design for Engines
Introduction to the design synthesis of subsystems and the entire engine
165(3)
Granularity of a complicated system
168(2)
A hierarchical cooperative evolutionary design model for an engine
170(2)
Parameter cooperative mechanism in the hierarchical system
172(2)
Mathematical models of the hierarchical cooperative evolutionary design
174(6)
Hierarchical cooperative evolutionary design for an engine and its results
180(9)
Summary
189(2)
Appendix A 191(4)
Subject Index 195