How to cite this paper
Khurana, D & Chaudhary, R. (2016). Optimal pricing and ordering policy for deteriorating items with price and stock dependent demand and partial backlogging.Uncertain Supply Chain Management, 4(4), 307-318.
Refrences
Abad, P. L. (2000). Optimal lot size for a perishable good under conditions of finite production and partial backordering and lost sale. Computers & Industrial Engineering, 38(4), 457-465.
Abad, P.L. (2003). Optimal pricing and lot-sizing under conditions of perishability, finite production and partial backordering and lost sale. European Journal of Operational Research, 144 (3), 677–685.
Chu, P. & Chung, K. J (2004). The sensitivity of the inventory model with partial backorders. European Journal of Operational Research, 152 (1), 289–295.
Khurana, D. (2015). Two warehouse inventory model for deteriorating items with time dependent demand under inflation. International Journal of Computer Applications, 114(7).
Shukla, H. S., Shukla, V., and Yadav, S. K., (2013). EOQ model for deteriorating items with exponential demand rate and shortages. Uncertain Supply Chain Management, 1(2), 67-76.
Singh, S., Khurana, D., & Tayal, S. (2016). An economic order quantity model for deteriorating products having stock dependent demand with trade credit period and preservation technology. Uncertain Supply Chain Management, 4(1), 29-42.
Shastri, S. Singh, S., & S. Gupta, (2015). Supply chain management under the effect of trade credit for deteriorating items with ramp-type demand and partial backordering under inflationary environment. Uncertain Supply Chain Management, 3(4), 339-362.
Singh, N., Vaish B., & Singh, S. R. (2014). Analysis of three level supply chain of inventory with deterioration for multi items. International Journal of Industrial Engineering Computations, 5 (3), 417-430.
Singh, S. R., & Singh. N. (2009). A production inventory model with variable demand rate for deteriorating items under permissible delay in payments. International Transactions in Mathematical Sciences & Computer, 2(1), 73-82.
Singh S. R, Kumar N., & Kumari R., (2010a). An inventory model for deteriorating items with shortages and stock-dependent demand under inflation for two-shops under one management. OPSEARCH 47(4), 311-329.
Singh, S. R., Kumari, R., & Kumar, N. (2010b). Replenishment policy for non-instantaneous deteriorating items with stock-dependent demand and partial back logging with two-storage facility under inflation. International Journal of Operations Research and Optimization, 1(1), 161-179.
Singh S. R., & Saxena N. (2013). A closed loop supply chain system with flexible manufacturing and reverse logistics operation under shortages for deteriorating items. International Conference on Computational Intelligence: Modeling Techniques and Applications, Procedia Technology, 10, 330 – 339.
Singh S. R., & Sharma S. R. (2014), Optimal trade-credit policy for perishable items deeming imperfect production and stock dependent demand. International Journal of Industrial Engineering Computations, 5(1), 151-168.
Tayal, S., Singh, S. R., Chauhan, A., & Sharma R. (2014a). A deteriorating production inventory problem with space restriction. Journal of Information & Optimization Sciences, 35(3), 203–229.
Tayal, S., Singh, S.R., Sharma, R., & Chauhan A. (2014b). Two echelon supply chain model for deteriorating items with effective investment in preservation technology. International Journal of Mathematics in Operational Research, 6(1), 84-105.
Tyagi, A. P., Pandey, R. K., & Singh, S. (2014c). An optimal replenishment policy for non-instantaneous deteriorating items with stock-dependent demand and variable holding cost. International Journal of Operational Research, 21(4), 466-488.
Tayal, S., Singh, S. R., & Sharma, R. (2014d). Multi item inventory model for deteriorating items with expiration date and allowable shortages. Indian Journal of Science and Technology, 7(4), 463-471.
Tayal, S., Singh, S. R., & Sharma, R. (2015a). An integrated production inventory model for perishable products with trade credit period and investment in preservation technology. International Journal of Mathematics in Operational Research, Article ID 76334.
Tayal, S., Singh, S. R., Sharma, R., & Singh, A. P. (2015b). An EPQ model for non–instantaneous deteriorating item with time dependent holding cost and exponential demand rate. International Journal of Operational Research, 23(2), 145-162.
Tayal, S. (2015c). Optimal decisions for deteriorating items with expiration date and uncertain lead time. http://hdl.handle.net/10603/54451.
Tayal, S., Singh, S., & Sharma, R. (2015d). An inventory model for deteriorating items with seasonal products and an option of an alternative market. Uncertain Supply Chain Management, 3(1), 69-86.
Zhou, Y. W., Lau, H. S., & Yang, S. L. (2003). A new variable production scheduling strategy for deteriorating items with time-varying demand and partial lost sale. Computers & Operations Research, 30(12), 1753-1776.
Zhou, Y. W., Lau, H. S., & Yang, S. L. (2004). A finite horizon lot-sizing problem with time-Varying deterministic demand and waiting-time-dependent partial backlogging. International Journal of Production Economics, 91(2), 109-119.
Abad, P.L. (2003). Optimal pricing and lot-sizing under conditions of perishability, finite production and partial backordering and lost sale. European Journal of Operational Research, 144 (3), 677–685.
Chu, P. & Chung, K. J (2004). The sensitivity of the inventory model with partial backorders. European Journal of Operational Research, 152 (1), 289–295.
Khurana, D. (2015). Two warehouse inventory model for deteriorating items with time dependent demand under inflation. International Journal of Computer Applications, 114(7).
Shukla, H. S., Shukla, V., and Yadav, S. K., (2013). EOQ model for deteriorating items with exponential demand rate and shortages. Uncertain Supply Chain Management, 1(2), 67-76.
Singh, S., Khurana, D., & Tayal, S. (2016). An economic order quantity model for deteriorating products having stock dependent demand with trade credit period and preservation technology. Uncertain Supply Chain Management, 4(1), 29-42.
Shastri, S. Singh, S., & S. Gupta, (2015). Supply chain management under the effect of trade credit for deteriorating items with ramp-type demand and partial backordering under inflationary environment. Uncertain Supply Chain Management, 3(4), 339-362.
Singh, N., Vaish B., & Singh, S. R. (2014). Analysis of three level supply chain of inventory with deterioration for multi items. International Journal of Industrial Engineering Computations, 5 (3), 417-430.
Singh, S. R., & Singh. N. (2009). A production inventory model with variable demand rate for deteriorating items under permissible delay in payments. International Transactions in Mathematical Sciences & Computer, 2(1), 73-82.
Singh S. R, Kumar N., & Kumari R., (2010a). An inventory model for deteriorating items with shortages and stock-dependent demand under inflation for two-shops under one management. OPSEARCH 47(4), 311-329.
Singh, S. R., Kumari, R., & Kumar, N. (2010b). Replenishment policy for non-instantaneous deteriorating items with stock-dependent demand and partial back logging with two-storage facility under inflation. International Journal of Operations Research and Optimization, 1(1), 161-179.
Singh S. R., & Saxena N. (2013). A closed loop supply chain system with flexible manufacturing and reverse logistics operation under shortages for deteriorating items. International Conference on Computational Intelligence: Modeling Techniques and Applications, Procedia Technology, 10, 330 – 339.
Singh S. R., & Sharma S. R. (2014), Optimal trade-credit policy for perishable items deeming imperfect production and stock dependent demand. International Journal of Industrial Engineering Computations, 5(1), 151-168.
Tayal, S., Singh, S. R., Chauhan, A., & Sharma R. (2014a). A deteriorating production inventory problem with space restriction. Journal of Information & Optimization Sciences, 35(3), 203–229.
Tayal, S., Singh, S.R., Sharma, R., & Chauhan A. (2014b). Two echelon supply chain model for deteriorating items with effective investment in preservation technology. International Journal of Mathematics in Operational Research, 6(1), 84-105.
Tyagi, A. P., Pandey, R. K., & Singh, S. (2014c). An optimal replenishment policy for non-instantaneous deteriorating items with stock-dependent demand and variable holding cost. International Journal of Operational Research, 21(4), 466-488.
Tayal, S., Singh, S. R., & Sharma, R. (2014d). Multi item inventory model for deteriorating items with expiration date and allowable shortages. Indian Journal of Science and Technology, 7(4), 463-471.
Tayal, S., Singh, S. R., & Sharma, R. (2015a). An integrated production inventory model for perishable products with trade credit period and investment in preservation technology. International Journal of Mathematics in Operational Research, Article ID 76334.
Tayal, S., Singh, S. R., Sharma, R., & Singh, A. P. (2015b). An EPQ model for non–instantaneous deteriorating item with time dependent holding cost and exponential demand rate. International Journal of Operational Research, 23(2), 145-162.
Tayal, S. (2015c). Optimal decisions for deteriorating items with expiration date and uncertain lead time. http://hdl.handle.net/10603/54451.
Tayal, S., Singh, S., & Sharma, R. (2015d). An inventory model for deteriorating items with seasonal products and an option of an alternative market. Uncertain Supply Chain Management, 3(1), 69-86.
Zhou, Y. W., Lau, H. S., & Yang, S. L. (2003). A new variable production scheduling strategy for deteriorating items with time-varying demand and partial lost sale. Computers & Operations Research, 30(12), 1753-1776.
Zhou, Y. W., Lau, H. S., & Yang, S. L. (2004). A finite horizon lot-sizing problem with time-Varying deterministic demand and waiting-time-dependent partial backlogging. International Journal of Production Economics, 91(2), 109-119.