Lead Times – Their Behavior and the Impact on Planning and Control in Supply Chains
Divisions of PAS
ISSN 2080-8208 ; eISSN 2082-1344
Buchmeister (2008), Bullwhip effect problem in supply chains Advances in Production, Engineering Management, 3, 45. ; Sitek (2015), A hybrid framework for the modelling and optimisation of decision problems in sustainable supply chain management, International Journal of Production Research, 53, 6611. ; Singh (2014), Prioritising the alternatives for flexibility in supply chains, Production Planning & Control, 25, 176. ; Kim (2006), Quantifying the bullwhip effect in a supply chain with stochastic lead time, European Journal of Operational Research, 173, 617. ; Gross (1969), The effect of reducing leadtime on inventory levels - simulation analysis, Management Science, 16, 61. ; Lee (1997), Information distortion in a supply chain : the bullwhip effect, Management Science, 43, 546. ; Chatfield (2004), The bullwhip effect impact of stochastic lead time information quality and information sharing : a simulation study, Production and Operations Management, 13, 340. ; Wang (2017), Mitigating variance amplification under stochastic lead - time : the proportional control approach, European Journal of Operational Research, 256, 151. ; Nielsen (2014), An empirical investigation of lead time distributions IFIP International Conference on Advances in, Production Management Systems. ; Eppen (1988), Determining safety stock in the presence of stochastic lead time and demand, Management Science, 34, 1380. ; Chen (2000), Quantifying the bullwhip effect in a simple supply chain : The impact of forecasting lead times and information, Management Science, 46, 436. ; Mascle (2014), Inventory management maximization based on sales forecast : case study, Production Planning & Control, 25, 1039. ; Lee (1997), The bullwhip effect in supply chains, MIT Sloan Management Review, 38, 93. ; Michna (2013), The bullwhip effect in supply chains with stochastic lead times, Mathematical Economics, 9, 71. ; Eriksen (2016), Order quantity distributions : estimating an adequate aggregation horizon Management and, Production Engineering Review, 7, 39. ; Otto (2003), Does supply chain management really pay ? Six perspectives to measure the performance of managing a supply chain, European Journal of Operational Research, 144, 306. ; Ghaffari (2013), Analysis of the bullwhip effect with multi - echelon multi - product supply chains, International Journal of Industrial Engineering Computations, 4, 579. ; Wikner (1991), Smoothing supply chain dynamics, International Journal of Production Economics, 22, 231. ; Sitek (2014), A hybrid multiagent approach to the solving supply chain problems, Procedia Computer Science, 35, 1557. ; Chaharsooghi (2010), LT variance or LT mean reduction in supply chain management : which one has a higher impact on SC performance ?, International Journal of Production Economics, 124, 475. ; Song (1994), The effect of leadtime uncertainty in a simple stochastic inventory model, Management Science, 40, 603. ; Bagchi (1986), The effect of lead - time variability : the case of independent demand, Journal of Operations Management, 6, 159. ; Nielsen (2010), Optimizing supply chain waste management through the use of RFID technology Proceedings of International Conference on RFID - Technology and Applications RFID - TA pp, IEEE, 296. ; Bocewicz (2013), Declarative approach to cyclic steady state space refinement : periodic process scheduling, The International Journal of Advanced Manufacturing Technology, 67, 1. ; So (2003), Impact of supplier s lead time and forecast demand updating on retailer s order quantity variability in a two - level supply chain, International Journal of Production Economics, 86, 169. ; McCullen (2002), Diagnosis and reduction of bullwhip in supply chains Supply Chain Management : An, International Journal, 7, 164. ; Disney (2016), Inventory management for stochastic lead times with order crossovers, European Journal of Operational Research, 248, 473. ; Metters (1997), Quantifying the bullwhip effect in supply chains, Journal of Operations Management, 15, 89.