On the shortage control in a continuous review $(Q , r)$ inventory policy using $\alpha_L$ service-level

Escalona, Pablo; Araya, Diego; Simpson, Enrique; Ramirez, Mario; Stegmaier, Raul

doi:10.1051/ro/2021125

On the shortage control in a continuous review

(Q, r)

inventory policy using

α_{L}

service-level

Escalona, Pablo ; Araya, Diego ; Simpson, Enrique ; Ramirez, Mario ; Stegmaier, Raul

RAIRO. Operations Research, Tome 55 (2021) no. 5, pp. 2785-2806

Résumé

Popular measures of product availability in inventory systems seek to control different aspects of stock shortages. However, none of them simultaneously control all aspects of shortages, because stock shortages in inventory systems are complex random events. This paper analyzes the performance of α$$ service measure, defined as the probability that stockouts do not occur during a replenishment cycle, to cover different aspects of stock shortages when used to design an optimal continuous review (Q, r) policy. We show that explicitly controlling the frequency of replenishment cycle stockouts, using the $$ service-level, allows to implicitly control the size of the stockouts at an arbitrary time, the size of accumulated backorders at an arbitrary time, and the duration of the replenishment cycle stockouts. However, the cost of controlling the frequency of replenishment cycle stockouts is greater than the cost of controlling the size of stockouts and the duration of the replenishment cycle stockouts.

MR

DOI : 10.1051/ro/2021125

Classification : 90B05
Keywords: Inventory control, shortage, stochastic, service-level, continuous review ($$) policy, service level constraint problem

@article{RO_2021__55_5_2785_0,
     author = {Escalona, Pablo and Araya, Diego and Simpson, Enrique and Ramirez, Mario and Stegmaier, Raul},
     title = {On the shortage control in a continuous review $(Q , r)$ inventory policy using $\alpha_L$ service-level},
     journal = {RAIRO. Operations Research},
     pages = {2785--2806},
     year = {2021},
     publisher = {EDP-Sciences},
     volume = {55},
     number = {5},
     doi = {10.1051/ro/2021125},
     mrnumber = {4313824},
     language = {en},
     url = {https://www.numdam.org/articles/10.1051/ro/2021125/}
}

TY  - JOUR
AU  - Escalona, Pablo
AU  - Araya, Diego
AU  - Simpson, Enrique
AU  - Ramirez, Mario
AU  - Stegmaier, Raul
TI  - On the shortage control in a continuous review $(Q , r)$ inventory policy using $\alpha_L$ service-level
JO  - RAIRO. Operations Research
PY  - 2021
SP  - 2785
EP  - 2806
VL  - 55
IS  - 5
PB  - EDP-Sciences
UR  - https://www.numdam.org/articles/10.1051/ro/2021125/
DO  - 10.1051/ro/2021125
LA  - en
ID  - RO_2021__55_5_2785_0
ER  -

%0 Journal Article
%A Escalona, Pablo
%A Araya, Diego
%A Simpson, Enrique
%A Ramirez, Mario
%A Stegmaier, Raul
%T On the shortage control in a continuous review $(Q , r)$ inventory policy using $\alpha_L$ service-level
%J RAIRO. Operations Research
%D 2021
%P 2785-2806
%V 55
%N 5
%I EDP-Sciences
%U https://www.numdam.org/articles/10.1051/ro/2021125/
%R 10.1051/ro/2021125
%G en
%F RO_2021__55_5_2785_0

Escalona, Pablo; Araya, Diego; Simpson, Enrique; Ramirez, Mario; Stegmaier, Raul. On the shortage control in a continuous review $(Q , r)$ inventory policy using $\alpha_L$ service-level. RAIRO. Operations Research, Tome 55 (2021) no. 5, pp. 2785-2806. doi: 10.1051/ro/2021125

Bibliographie
Cité par

[1] V. Agrawal and S. Seshadri, Distribution free bounds for service constrained $(Q, r)$ inventory systems. Naval Res. Logistics (NRL) 47 (2000) 635–656. | MR | Zbl | DOI

[2] F. A. Akinniyi and E. A. Silver, Inventory control using a service constraint on the expected duration of stockouts. AIIE Trans. 13 (1981) 343–348. | DOI

[3] S. Axsäter, A simple procedure for determining order quantities under a fill rate constraint and normally distributed lead-time demand. Eur. J. Oper. Res. 174 (2006) 480–491. | Zbl | DOI

[4] S. Axsäter, Inventory Control. Springer 225 (2015). | MR | DOI

[5] E. Babiloni and E. Guijarro, Fill rate: from its definition to its calculation for the continuous $(s, Q)$ inventory system with discrete demands and lost sales. Central Eur. J. Oper. Res. 28 (2020) 35–43. | MR | DOI

[6] D. Bertsimas and I. C. Paschalidis, Probabilistic service level guarantees in make-to-stock manufacturing systems. Oper. Res. 49 (2001) 119–133. | MR | Zbl | DOI

[7] M. Bijvank, Periodic review inventory systems with a service level criterion. J. Oper. Res. Soc. 65 (2014) 1853–1863. | DOI

[8] F. Y. Chen and D. Krass, Inventory models with minimal service level constraints. Eur. J. Oper. Res. 134 (2001) 120–140. | MR | Zbl | DOI

[9] N. Craig, N. Dehoratius and A. Raman, The impact of supplier inventory service level on retailer demand. Manuf. Ser. Oper. Manage. 18 (2016) 461–474. | DOI

[10] P. Escalona, F. Ordóñez and I. Kauak, Critical level rationing in inventory systems with continuously distributed demand. OR Spectr. 39 (2017) 273–301. | MR | DOI

[11] P. Escalona, A. Angulo, J. Weston, R. Stegmaier and I. Kauak, On the effect of two popular service-level measures on the design of a critical level policy for fast-moving items. Comput. Oper. Res. 107 (2019) 107–126. | MR | DOI

[12] A. Federgruen and Y.-S. Zheng, An efficient algorithm for computing an optimal $(r, Q)$ policy in continuous review stochastic inventory systems. Oper. Res. 40 (1992) 808–813. | Zbl | DOI

[13] G. Hadley and T. M. Whitin, Analysis of inventory systems. Technical report (1963). | Zbl

[14] Y. Jiang, C. Shi and S. Shen, Service level constrained inventory systems. Prod. Oper. Manage. 28 (2019) 2365–2389. | DOI

[15] G. Kiesmüller and A. De Kok, The customer waiting time in an $(R, s, Q)$ inventory system. Int. J. Prod. Econ. 104 (2006) 354–364. | DOI

[16] H. Klemm, Lieferbereitschaft und vorratsraum in lagerhaltungsmodellen, edited by P. Linke and H. Klemm. In: Kapitel 3, Laqerhaltunqsmodelle). Verlag die Wirtschaft, Berlin (1974). | Zbl

[17] W. K. Kruse, Waiting time in a continuous review $(s, S)$ inventory system with constant lead times. Oper. Res. 29 (1981) 202–207. | MR | Zbl | DOI

[18] K. Muthuraman, S. Seshadri and Q. Wu, Inventory management with stochastic lead times. Math. Oper. Res. 40 (2015) 302–327. | MR | DOI

[19] A. Paul, M. Pervin, S. K. Roy, G.-W. Weber and A. Mirzazadeh, Effect of price-sensitive demand and default risk on optimal credit period and cycle time for a deteriorating inventory model. RAIRO:OR 55 (2021) S2575–S2592. | MR | DOI

[20] H. N. Perera, B. Fahimnia and T. Tokar, Inventory and ordering decisions: a systematic review on research driven through behavioral experiments. Int. J. Oper. Prod. Manage. 40 (2020) 997–1039. | DOI

[21] M. Pervin, S. K. Roy and G. W. Weber, Multi-item deteriorating two-echelon inventory model with price-and stock-dependent demand: a trade-credit policy. J. Ind. Manage. Optim. 15 (2019) 1345. | MR | DOI

[22] M. Pervin, S. K. Roy and G. W. Weber, Deteriorating inventory with preservation technology under price-and stock-sensitive demand. J. Ind. Manage. Optim. 16 (2020) 1585. | MR | DOI

[23] M. Pervin, S. K. Roy and G.-W. Weber, An integrated vendor-buyer model with quadratic demand under inspection policy and preservation technology. Hacettepe J. Math. Stat. 49 (2020) 1168–1189. | MR | DOI

[24] K. Ramaekers and G. K. Janssens, On the choice of a demand distribution for inventory management models. Eur. J. Ind. Eng. 2 (2008) 479–491. | DOI

[25] K. Rosling, The Square-root Algorithm for Single-item Inventory Optimization, Department of Industrial Engineering, Växjö University, SE-351 95 (1999).

[26] H. Schneider, Effect of service-levels on order-points or order-levels in inventory models. Int. J. Prod. Res. 19 (1981) 615–631. | DOI

[27] H. Schneider and J. L. Ringuest, Power approximation for computing $(s, S)$ policies using service level. Manage. Sci. 36 (1990) 822–834. | MR | Zbl | DOI

[28] E. A. Silver, D. F. Pyke and R. Peterson, Inventory Management and Production Planning and Scheduling. Wiley, New York 3 (1998).

[29] Y. Tan, A. A. Paul, Q. Deng and L. Wei, Mitigating inventory overstocking: optimal order-up-to level to achieve a target fill rate over a finite horizon. Prod. Oper. Manage. 26 (2017) 1971–1988. | DOI

[30] H. Tempelmeier, Inventory control using a service constraint on the expected customer order waiting time. Eur. J. Oper. Res. 19 (1985) 313–323. | MR | Zbl | DOI

[31] H. Tempelmeier and L. Fischer, A procedure for the approximation of the waiting time distribution in a discrete-time $(r, S)$ inventory system. Int. J. Prod. Res. 57 (2019) 1413–1426. | DOI

[32] R. H. Teunter, M. Z. Babai and A. A. Syntetos, ABC classification: service levels and inventory costs. Prod. Oper. Manage. 19 (2010) 343–352. | DOI

[33] R. H. Teunter, A. A. Syntetos and M. Z. Babai, Stock keeping unit fill rate specification. Eur. J. Oper. Res. 259 (2017) 917–925. | DOI

[34] U. W. Thonemann, A. O. Brown and W. H. Hausman, Easy quantification of improved spare parts inventory policies. Manage. Sci. 48 (2002) 1213–1225. | Zbl | DOI

[35] M.-Z. Wang and W.-L. Li, On convexity of service-level measures of the discrete $(r, Q)$ inventory system. In: Second International Conference on Innovative Computing, Informatio and Control (ICICIC 2007). IEEE (2007) 417. | DOI

[36] A. Z. Zeng and J. C. Hayya, The performance of two popular service measures on management effectiveness in inventory control. Int. J. Prod. Econ. 58 (1999) 147–158. | DOI

[37] H. Zhang, A note on the convexity of service-level measures of the $(r, q)$ system. Manage. Sci. 44 (1998) 431–432. | Zbl | DOI

[38] P. Zipkin, Inventory service-level measures: convexity and approximation. Manage. Sci. 32 (1986) 975–981. | MR | Zbl | DOI

Cité par Sources :