自动化技术、电信工程 |
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基于平均驻留时间方法的牛鞭效应稳定化控制 |
仇翔1, 宋海裕2, 俞立1 |
1. 浙江工业大学 信息工程学院,浙江 杭州 310023; 2. 浙江财经大学 信息学院, 浙江 杭州 310018 |
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Bullwhip effect control based on average dwell time method |
QIU Xiang1, SONG Hai yu2, YU Li1 |
1. College of Information Engineering, Zhejiang University of Technology, Hangzhou 310023, China;2. College of Information, Zhejiang University of Finance and Economics, Hangzhou 310018, China |
[1] BENDINER J. Understanding supply chain optimization [J]. APICS The Performance Advantage, 1998, 1: 34-40.
[2] CROSON R, DONOHUE K. Behavioral causes of the bullwhip effect and the observed value of inventory information [J]. Management Science, 2006, 52(3): 323-336.
[3] DEJONCKHEERE J, DISNEY S M, LAMBRECHT M R, et al. The impact of information enrichment on the bullwhip effect in supply chains: a control engineering perspective [J]. European Journal of Operational Research, 2004, 153(3): 727-750.
[4] 汪传旭,崔建新.ARMA(1,1)需求条件下需求信息延迟对两级供应链牛鞭效应和平均成本的影响[J].系统管理学报,2007, 16(3): 332-336.
WANG Chuan xu, CUI Jian xin. Impact of demand information delay on order variation and average cost in a two stage supply chain with ARMA(1,1) demand [J]. Journal of Systems and Management, 2007, 16(3): 332-336.
[5] BAGANHA M, COHEN M. The stabilizing effect on inventory in supply chains [J]. Operational Research, 1998, 46(3): 572-583.
[6] 黄小原,卢震.供应链牛鞭效应的H∞控制应用研究[J]. 控制与决策, 2002, 18(2): 155-158.
HUANG Xiao yuan, LU Zhen. Application of H∞ control strategies of bullwhip effect in supply chain [J]. Control and Decision,2002, 18(2): 155-158.
[7] 唐亮,靖可.H∞鲁棒控制下动态供应链系统牛鞭效应优化[J].系统工程理论与实践, 2012, 32(1): 155-163.
TANG Liang, JING Ke. Bullwhip effect optimization of dynamic supply chain system based on H∞ robust control [J]. Systems Engineering: Theory and Practice, 2012, 32(1): 155-163.
[8] 李翀,刘思峰.信息共享受限条件下的供应链网络系统牛鞭效应控制策略[J]. 控制与决策, 2012, 27(12): 1787-1792.
LI Chong, LIU Si feng. Bullwhip effect control strategy in supply chain networks with limited information sharing [J]. Control and Decision, 2012, 27(12): 1787-1792.
[9] LI C. Controlling the bullwhip effect in a supply chain system with constrained information flows [J]. Applied Mathematical Modeling, 2013, 37(4): 1897-1909.
[10] LI C, LIU S F. A robust optimization approach to reduce the bullwhip effect of supply chains with vendor order placement lead time delays in an uncertain environment [J]. Applied Mathematical Modeling, 2013, 37(3): 707-718.
[11] GARCIA C, IBEAS A, VILANOVA R. A switched control strategy for inventory control of the supply chain [J]. Journal of Process Control, 2013, 23(6): 868-880.
[12] FU D, IONESCU C, AGHEZZAF E, et al. Decentralized and centralized model predictive control to reduce the bullwhip effect in supply chain management [J]. Computers and Industrial Engineering, 2014, 73: 21-31.
[13] HESPANHA J, MORSE A. Stability of switched systems with average dwell time [C]∥Proceeding of the 38th IEEE Conference on Decision and Control. Phoenix: IEEE, 1999: 2655-2660.
[14] ZHANG W, YU L. Output feedback stabilization of networked control systems with packet dropouts [J]. IEEE Transactions on Automatic Control, 2007, 52(9): 1705-1710.
[15] ZHANG L, BOUKAS E K, SHI P. Exponential H∞ filtering for uncertain discrete time switched linear systems with average dwell time: a μ dependent approach [J]. International Journal of Robust and Nonlinear Control, 2008, 18(11): 1188-1207.
[16] ZHAO X, ZHANG L, SHI P, et al. Stability of switched positive linear systems with average dwell time switching [J]. Automatica, 2012, 48(6): 1132-1137.
[17] ZHAI G S, HU B, YASUDA K, et al. Qualitative analysis of discrete time switched systems [C]∥Proceeding of the 2002 American Control Conference. Anchorage: IEEE, 2002: 1880-1885. |
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