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Stochastic simulation optimization for discrete event systems[electronic resource] :perturbation analysis, ordinal optimization, and beyond /

紀錄類型:	書目-語言資料,印刷品 : Monograph/item
杜威分類號:	003/.83
書名/作者:	Stochastic simulation optimization for discrete event systems : perturbation analysis, ordinal optimization, and beyond // edited by Chun-Hung Chen, Qing-Shan Jia & Loo Hay Lee.
其他作者:	Chen, Chun-Hung,
出版者:	[Hackensack] New Jersey : : World Scientific,, 2013.
面頁冊數:	1 online resource (276 p.)
標題:	Discrete-time systems - Mathematical models.
標題:	Perturbation (Mathematics)
標題:	Systems engineering - Computer simulaton.
ISBN:	9789814513012 (electronic bk.)
ISBN:	9814513016 (electronic bk.)
ISBN:	9789814513029 (electronic bk.)
摘要、提要註:	"Discrete event systems (DES) have become pervasive in our daily life. Examples include (but are not restricted to) manufacturing and supply chains, transportation, healthcare, call centers, and financial engineering. However, due to their complexities that often involve millions or even billions of events with many variables and constraints, modeling of these stochastic simulations has long been a "hard nut to crack". The advance in available computer technology, especially of cluster and cloud computing, has paved the way for the realization of a number of stochastic simulation optimization for complex discrete event systems. This book will introduce two important techniques initially proposed and developed by Professor Y.C. Ho and his team; namely perturbation analysis and ordinal optimization for stochastic simulation optimization, and present the state-of-the-art technology, and their future research directions. Contents: Part I: Perturbation Analysis: IPA Calculus for Hybrid Systems; Smoothed Perturbation Analysis: A Retrospective and Prospective Look; Perturbation Analysis and Variance Reduction in Monte Carlo Simulation; Adjoints and Averaging; Infinitesimal Perturbation Analysis in On-Line Optimization; Simulation-based Optimization of Failure-Prone Continuous Flow Lines; Perturbation Analysis, Dynamic Programming, and Beyond; Part II: Ordinal Optimization : Fundamentals of Ordinal Optimization; Optimal Computing Budget Allocation; Nested Partitions; Applications of Ordinal Optimization. Readership: Professionals in industrial and systems engineering, graduate reference for probability & statistics, stochastic analysis and general computer science, and research."--
電子資源:	http://www.worldscientific.com/worldscibooks/10.1142/8827#t=toc

Stochastic simulation optimization for discrete event systems[electronic resource] :perturbation analysis, ordinal optimization, and beyond /
Stochastic simulation optimization for discrete event systemsperturbation analysis, ordinal optimization, and beyond /[electronic resource] :edited by Chun-Hung Chen, Qing-Shan Jia & Loo Hay Lee. - [Hackensack] New Jersey :World Scientific,2013. - 1 online resource (276 p.)

"Discrete event systems (DES) have become pervasive in our daily life. Examples include (but are not restricted to) manufacturing and supply chains, transportation, healthcare, call centers, and financial engineering. However, due to their complexities that often involve millions or even billions of events with many variables and constraints, modeling of these stochastic simulations has long been a "hard nut to crack". The advance in available computer technology, especially of cluster and cloud computing, has paved the way for the realization of a number of stochastic simulation optimization for complex discrete event systems. This book will introduce two important techniques initially proposed and developed by Professor Y.C. Ho and his team; namely perturbation analysis and ordinal optimization for stochastic simulation optimization, and present the state-of-the-art technology, and their future research directions. Contents: Part I: Perturbation Analysis: IPA Calculus for Hybrid Systems; Smoothed Perturbation Analysis: A Retrospective and Prospective Look; Perturbation Analysis and Variance Reduction in Monte Carlo Simulation; Adjoints and Averaging; Infinitesimal Perturbation Analysis in On-Line Optimization; Simulation-based Optimization of Failure-Prone Continuous Flow Lines; Perturbation Analysis, Dynamic Programming, and Beyond; Part II: Ordinal Optimization : Fundamentals of Ordinal Optimization; Optimal Computing Budget Allocation; Nested Partitions; Applications of Ordinal Optimization. Readership: Professionals in industrial and systems engineering, graduate reference for probability & statistics, stochastic analysis and general computer science, and research."--

ISBN: 9789814513012 (electronic bk.)Subjects--Topical Terms:

486979
Discrete-time systems
--Mathematical models.

LC Class. No.: TA343 / .S76 2013

Dewey Class. No.: 003/.83

Stochastic simulation optimization for discrete event systems[electronic resource] :perturbation analysis, ordinal optimization, and beyond /
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020 $a 9789814513012 (electronic bk.)
020 $a 9814513016 (electronic bk.)
020 $a 9789814513029 (electronic bk.)
020 $z 9789814513005
020 $z 9814513008
035 $a (OCoLC)852150965
035 $a ocn852150965
040 $a N $c N $d OCLCO $d YDXCP $d DEBSZ $d OCLCA $d E7B $d CDX
050 4 $a TA343 $b .S76 2013
082 0 4 $a 003/.83 $2 23
245 0 0 $a Stochastic simulation optimization for discrete event systems $h [electronic resource] : $b perturbation analysis, ordinal optimization, and beyond / $c edited by Chun-Hung Chen, Qing-Shan Jia & Loo Hay Lee.
260 $a [Hackensack] New Jersey : $b World Scientific, $c 2013.
300 $a 1 online resource (276 p.)
520 $a "Discrete event systems (DES) have become pervasive in our daily life. Examples include (but are not restricted to) manufacturing and supply chains, transportation, healthcare, call centers, and financial engineering. However, due to their complexities that often involve millions or even billions of events with many variables and constraints, modeling of these stochastic simulations has long been a "hard nut to crack". The advance in available computer technology, especially of cluster and cloud computing, has paved the way for the realization of a number of stochastic simulation optimization for complex discrete event systems. This book will introduce two important techniques initially proposed and developed by Professor Y.C. Ho and his team; namely perturbation analysis and ordinal optimization for stochastic simulation optimization, and present the state-of-the-art technology, and their future research directions. Contents: Part I: Perturbation Analysis: IPA Calculus for Hybrid Systems; Smoothed Perturbation Analysis: A Retrospective and Prospective Look; Perturbation Analysis and Variance Reduction in Monte Carlo Simulation; Adjoints and Averaging; Infinitesimal Perturbation Analysis in On-Line Optimization; Simulation-based Optimization of Failure-Prone Continuous Flow Lines; Perturbation Analysis, Dynamic Programming, and Beyond; Part II: Ordinal Optimization : Fundamentals of Ordinal Optimization; Optimal Computing Budget Allocation; Nested Partitions; Applications of Ordinal Optimization. Readership: Professionals in industrial and systems engineering, graduate reference for probability & statistics, stochastic analysis and general computer science, and research."-- $c Provided by publisher.
588 $a Description based on print version record.
650 0 $a Discrete-time systems $x Mathematical models. $3 486979
650 0 $a Perturbation (Mathematics) $3 214658
650 0 $a Systems engineering $x Computer simulaton. $3 586659
700 1 $a Chen, Chun-Hung, $d 1964- $3 586657
700 1 $a Jia, Qing-Shan, $d 1980- $3 586658
700 1 $a Lee, Loo Hay. $3 486994
856 4 0 $u http://www.worldscientific.com/worldscibooks/10.1142/8827#t=toc