Engineering optimization
{{Short description|Techniques for optimization}}
Engineering optimization
S. S. Rao, [https://books.google.com/books?id=YNt34dvnQLEC&dq=%22Engineering+Optimization%3A+Theory+and+Practice%22&pg=PA63 Engineering Optimization: Theory and Practice], Wiley, (2009)X.-S. Yang, [https://books.google.com/books?id=kTi6ul2g9VYC&q=%22Engineering+Optimization%3A+An+Introduction+with+Metaheuristic+Applications%22 Engineering Optimization: An Introduction with Metaheuristic Applications], Wiley, (2010). is the subject which uses optimization techniques to achieve design goals in engineering.J. N. Siddall, [https://books.google.com/books?id=i2hyniQpecYC Optimal Engineering Design], CRC Press, (1982).A.R. Parkinson, R. Balling, and J.D. Hedengren, [http://www.apmonitor.com/me575/index.php/Main/BookChapters Optimization Methods for Engineering Design], Brigham Young University, 2013. It is sometimes referred to as design optimization.
Topics
- structural design (including pressure vessel design and welded beam design)
- shape optimization
- topology optimization (including airfoils)
- inverse optimization (a subset of the inverse problem)
- processing planning
- product designs
- electromagnetic optimization
- space mapping
- aggressive space mappingJ.E. Rayas-Sanchez,[https://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=7423860&action=search&sortType=&rowsPerPage=&searchField=Search_All&matchBoolean=true&queryText=(%22Document%20Title%22:simplicity%20in%20asm) "Power in simplicity with ASM: tracing the aggressive space mapping algorithm over two decades of development and engineering applications"], IEEE Microwave Magazine, vol. 17, no. 4, pp. 64-76, April 2016.
- yield-driven design
- optimization exploiting surrogates (surrogate model)