Imperfect Production Inventory Models: A Bibliometric Analysis

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Novrianty Rizky
Agham Satria Pristiwaji
Muhammad Ridwan Andi Purnomo

Abstract

Economic order quantity models have been fascinated to be researched since a long time ago. This article presents a bibliometric analysis for imperfection production inventory models. Analysis involved 40 peerreviewed research articles published during 2000-2020 at Google Scholar and Sciencedirect. The articles are filtered based on trends, year of publication, countries, institution, and publisher name. Result of this study shows that a journal entitled International Journal of Production Economics has the most published article in the area. Content analysis has classified purpose of research, type of echelon, type of demand, lead-time, backorder, type of production process, quality improvement, setup cost and ordering cost reduction, logistic cost, and pick-up service. This study also recommends research gap for future studies in the field of inventory for supply chain management

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How to Cite
Rizky, N., Pristiwaji, A. S., & Purnomo, M. R. A. (2022). Imperfect Production Inventory Models: A Bibliometric Analysis . Enrichment : Journal of Management, 12(2), 1871-1884. Retrieved from https://enrichment.iocspublisher.org/index.php/enrichment/article/view/490

References

Abad, P. L., & Aggarwal, V. (2005). Incorporating transport cost in the lot size and pricing decisions with downward sloping demand. International Journal of Production Economics, 95(3), 297–305. Ben-Daya, M., & Hariga, M. (2004). Integrated single vendor single buyer model with stochastic demand and variable lead time. International Journal of Production Economics, 92(1), 75–80. Darwish, M. A. (2008). Joint determination of order quantity and reorder point of continuous review model under quantity and freight rate discounts. Computers and Operations Research, 35(12), 3902–3917. Ertogral, K., Darwish, M., & Ben-Daya, M. (2007). Production and shipment lot sizing in a vendor-buyer supply chain with transportation cost. European Journal of Operational Research, 176(3), 1592–1606. Glock, C. H. (2012). Lead time reduction strategies in a single-vendorsingle-buyer integrated inventory model with lot size-dependent lead times and stochastic demand. International Journal of Production Economics, 136(1), 37–44. Guchhait, R., Dey, B. K., Bhuniya, S., Ganguly, B., Mandal, B., Bachar, R. K., Sarkar, B., Wee, H., & Chaudhuri, K. (2020). Investment for process quality improvement and setup cost reduction in an imperfect production process with warranty policy and shortages. RAIRO - Operations Research, 54(1), 251–266. Gurtu, A., Jaber, M. Y., & Searcy, C. (2015). Impact of fuel price and emissions on inventory policies. Applied Mathematical Modelling, 39(3–4), 1202–1216. Hoque, M. A. (2013). A vendor-buyer integrated production-inventory model with normal distribution of lead time. International Journal of Production Economics, 144(2), 409–417. Huang, S. P. (2010). Using simple and efficient algorithm involving ordering cost reduction and backorder price discount on inventory system under variable lead time. Information Technology Journal, 804–810. Jauhari, W.A., Pujawan, I. N., & Wiratno, S. E. (2009). Model Joint Economic Lot Size Pada Kasus Pemasok-Pembeli Dengan Permintaan Probabilistik. Jurnal Teknik Industri, 11(1), 1–14. Jauhari, Wakhid Ahmad, Fitriyani, A., & Aisyati, A. (2016). An integrated inventory model for single-vendor singlebuyer system with freight rate discount and stochastic demand. International Journal of Operational Research, 25(3), 327–350. Jauhari, Wakhid Ahmad, Pujawan, I. N., Wiratno, S. E., & Priyandari, Y. (2011). Integrated inventory model for single vendor-single buyer with probabilistic demand. International Journal of Operational Research, 11(2), 160–178. Jindal, P., & Solanki, A. (2016). Integrated supply chain inventory model with quality improvement involving controllable lead time and backorder price discount. International Journal of Industrial Engineering Computations, 7(3), 463–480. Kurdhi, N. A., & Doewes, R. I. (2019). Periodic review inventory policy with variable ordering cost, lead time, and backorder rate. Songklanakarin Journal of Science and Technology, 41(1), 1–11. Leuveano, R. A. C., Jafar, F. A. B., & Muhamad, M. R. B. (2014a). Incorporating Transportation Costs into Integrated Inventory Model for Single Supplier and Single Purchaser. Advanced Science Letters, 20(1), 290–293. Leuveano, R. A. C., Bin Jafar, F. A., Saleh, C., & Bin Muhamad, M. R. (2014b). Incorporating Transportation Cost into Joint Economic Lot Size For Single Vendor-Buyer. Journal of Software, 9(5), 1313–1323. Lo, M. C., Chao-Hsien Pan, J., Lin, K. C., & Hsu, J. W. (2008). Impact of lead time and safety factor in mixed inventory models with backorder discounts. JApSc, 528–533. Maddah, B., & Jaber, M. Y. (2008). Economic order quantity for items with imperfect quality: Revisited. International Journal of Production Economics, 112(2), 808–815. Mendoza, A., & Ventura, J. A. (2008). Incorporating quantity discounts to the EOQ model with transportation costs. International Journal of Production Economics, 113(2), 754–765. Mukherjee, A., Dey, O., & Giri, B. C. (2019). An integrated imperfect production–inventory model with optimal vendor investment and backorder price discount. In Advances in Intelligent Systems and Computing (Vol. 699). Springer Singapore. Nie, L., Xu, X., & Zhan, D. (2006). Splitting Decisions for Coordinated Supply Chains. Journal of Advanced Manufacturing Systems, 5(1), 111–121. Ouyang, L. Y., Chen, C. K., & Chang, H. C. (2002). Quality improvement, setup cost and lead-time reductions in lot size reorder point models with an imperfect production process. Computers and Operations Research, 29(12), 1701–1717. Ouyang, L. Y., Wu, K. S., & Ho, C. H. (2004). Integrated vendor-buyer cooperative models with stochastic demand in controllable lead time. International Journal of Production Economics, 92(3), 255–266. Ouyang, L. Y., Wu, K. S., & Ho, C. H. (2007). An integrated vendor-buyer inventory model with quality improvement and lead time reduction. International Journal of Production Economics, 108(1–2), 349–358. Pan, J. C. H., & Hsiao, Y. C. (2001). Inventory models with back-order discounts and variable lead time. International Journal of Systems Science, 32(7), 925–929.
Pan, J. C. H., Lo, M. C., & Hsiao, Y. C. (2004). Optimal reorder point inventory models with variable lead time and backorder discount considerations. European Journal of Operational Research, 158(2), 488–505. Pan, J. C. H., & Yang, J. S. (2002). A study of an integrated inventory with controllable lead time. International Journal of Production Research, 40(5), 1263–1273. Salameh, M. K., & Jaber, M. Y. (2000). Economic production quantity model for items with imperfect quality. International Journal of Production Economics, 64, 59–64. Sarkar, B., Chaudhuri, K., & Moon, I. (2015a). Manufacturing setup cost reduction and quality improvement for the distribution free continuous-review inventory model with a service level constraint. Journal of Manufacturing Systems, 34(C), 74–82. Sarkar, B., Mandal, B., & Sarkar, S. (2015b). Quality improvement and backorder price discount under controllable lead time in an inventory model. Journal of Manufacturing Systems, 35, 26–36. http://dx.doi.org/10.1016/j.jmsy.2014.11.012 Sarkar, B., & Moon, I. (2014). Improved quality, setup cost reduction, and variable backorder costs in an imperfect production process. International Journal of Production Economics, 155, 204–213. Sarkar, B., Saren, S., Sinha, D., & Hur, S. (2015c). Effect of unequal lot sizes, variable setup cost, and carbon emission cost in a supply chain model. Mathematical Problems in Engineering, 2015. Sarkar, S., & Giri, B. C. (2020). Stochastic supply chain model with imperfect production and controllable defective rate. International Journal of Systems Science: Operations and Logistics, 7(2), 133–146. Tiwari, S., Kazemi, N., Modak, N. M., Cárdenas-Barrón, L. E., & Sarkar, S. (2020). The effect of human errors on an integrated stochastic supply chain model with setup cost reduction and backorder price discount. International Journal of Production Economics, 226(April 2019), 107643. Tiwari, S., Sana, S. S., & Sarkar, S. (2018). Joint economic lot sizing model with stochastic demand and controllable lead-time by reducing ordering cost and setup cost. Revista de La Real Academia de Ciencias Exactas, Fisicas y Naturales - Serie A: Matematicas, 112(4), 1075–1099. Vijayashree, M., & Uthayakumar, R. (2015). Integrated inventory model with controllable lead time involving investment for quality improvement in supply chain system. International Journal of Supply and Operations Management, 2(1), 617–639. Wangsa, I. D., & Wee, H. M. (2017). Impact of lead time reduction and fuel consumption on a two-echelon supply chain inventory with a subsidised price and pick-up policy. International Journal of Integrated Supply Management, 11(2/3), 264. Wee, H. M., Yu, J., & Chen, M. C. (2007). Optimal inventory model for items with imperfect quality and shortage backordering. Omega, 35(1), 7–11. Yang, J. S., & Pan, J. C. H. (2004). Just-in-time purchasing: An integrated inventory model involving deterministic variable lead time and quality improvement investment. International Journal of Production Research, 42(5), 853–863. Yoo, S. H., Kim, D., & Park, M. S. (2012). Lot sizing and quality investment with quality cost analyses for imperfect production and inspection processes with commercial return. International Journal of Production Economics, 140(2), 922–933.