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Optimization of integrated supply chain planning under multiple uncertainty[electronic resource] /

紀錄類型:	書目-電子資源 : Monograph/item
杜威分類號:	658.5
書名/作者:	Optimization of integrated supply chain planning under multiple uncertainty/ by Juping Shao, Yanan Sun, Bernd Noche.
作者:	Shao, Juping.
其他作者:
出版者:	Berlin, Heidelberg : : Springer Berlin Heidelberg :, 2015.
面頁冊數:	xvii, 188 p. : : ill., digital ;; 24 cm.
標題:
ISBN:	9783662472507 (electronic bk.)
ISBN:	9783662472491 (paper)
內容註:	Preface -- List of Main Symbols -- Introduction -- Literature Overview -- Customers demand forecasting dynamic equation models and weight distribution method of combination prediction -- Strategic alliance model for supply chain with parameters -- Model and algorithm of decentralized control supply chain logistics planning under uncertain environment -- Optimization of a hybrid supply chain under uncertain situation -- Conclusion and Future Work.
摘要、提要註:	The subject of this book is supply chain logistics planning optimization under multiple uncertainties, the key issue in supply chain management.?Focusing on the strategic-alliance three-level supply chain, the model of supply chain logistics planning was established in terms of the market prices and the market requirements as random variables of manufactured goods with random expected value programming theory, and the hybrid intelligence algorithm solution model was designed. Aiming at the decentralized control supply chain, in which the nodes were unlimited expansion, the chance-constrained stochastic programming model was created in order to obtain optimal decision-making at a certain confidence level. In addition, the hybrid intelligence algorithm model was designed to solve the problem of supply chain logistics planning with the prices of the raw-materials supply market of the upstream enterprises and the prices of market demand for products of the downstream enterprises as random variables in the supply chain unit. Aimed at the three-stage mixed control supply chain, a logistics planning model was designed using fuzzy random programming theory with customer demand as fuzzy random variables and a hybrid intelligence algorithm solution was created.The research has significance both in theory and practice. Its theoretical significance is that the research can complement and perfect existing supply chain planning in terms of quantification. Its practical significance is that the results will guide companies in supply chain logistics planning in the uncertain environment.#

Optimization of integrated supply chain planning under multiple uncertainty[electronic resource] /
Shao, Juping.

Optimization of integrated supply chain planning under multiple uncertainty[electronic resource] /by Juping Shao, Yanan Sun, Bernd Noche. - Berlin, Heidelberg :Springer Berlin Heidelberg :2015. - xvii, 188 p. :ill., digital ;24 cm.

Preface -- List of Main Symbols -- Introduction -- Literature Overview -- Customers demand forecasting dynamic equation models and weight distribution method of combination prediction -- Strategic alliance model for supply chain with parameters -- Model and algorithm of decentralized control supply chain logistics planning under uncertain environment -- Optimization of a hybrid supply chain under uncertain situation -- Conclusion and Future Work.

The subject of this book is supply chain logistics planning optimization under multiple uncertainties, the key issue in supply chain management.?Focusing on the strategic-alliance three-level supply chain, the model of supply chain logistics planning was established in terms of the market prices and the market requirements as random variables of manufactured goods with random expected value programming theory, and the hybrid intelligence algorithm solution model was designed. Aiming at the decentralized control supply chain, in which the nodes were unlimited expansion, the chance-constrained stochastic programming model was created in order to obtain optimal decision-making at a certain confidence level. In addition, the hybrid intelligence algorithm model was designed to solve the problem of supply chain logistics planning with the prices of the raw-materials supply market of the upstream enterprises and the prices of market demand for products of the downstream enterprises as random variables in the supply chain unit. Aimed at the three-stage mixed control supply chain, a logistics planning model was designed using fuzzy random programming theory with customer demand as fuzzy random variables and a hybrid intelligence algorithm solution was created.The research has significance both in theory and practice. Its theoretical significance is that the research can complement and perfect existing supply chain planning in terms of quantification. Its practical significance is that the results will guide companies in supply chain logistics planning in the uncertain environment.#

ISBN: 9783662472507 (electronic bk.)

Standard No.: 10.1007/978-3-662-47250-7doiSubjects--Topical Terms:

353965

LC Class. No.: HD38.5

Dewey Class. No.: 658.5

Optimization of integrated supply chain planning under multiple uncertainty[electronic resource] /
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520 $a The subject of this book is supply chain logistics planning optimization under multiple uncertainties, the key issue in supply chain management.?Focusing on the strategic-alliance three-level supply chain, the model of supply chain logistics planning was established in terms of the market prices and the market requirements as random variables of manufactured goods with random expected value programming theory, and the hybrid intelligence algorithm solution model was designed. Aiming at the decentralized control supply chain, in which the nodes were unlimited expansion, the chance-constrained stochastic programming model was created in order to obtain optimal decision-making at a certain confidence level. In addition, the hybrid intelligence algorithm model was designed to solve the problem of supply chain logistics planning with the prices of the raw-materials supply market of the upstream enterprises and the prices of market demand for products of the downstream enterprises as random variables in the supply chain unit. Aimed at the three-stage mixed control supply chain, a logistics planning model was designed using fuzzy random programming theory with customer demand as fuzzy random variables and a hybrid intelligence algorithm solution was created.The research has significance both in theory and practice. Its theoretical significance is that the research can complement and perfect existing supply chain planning in terms of quantification. Its practical significance is that the results will guide companies in supply chain logistics planning in the uncertain environment.#
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