随机产出下商务模式对生鲜农产品供应链运作的影响

冯颖, 王远芳, 张炎治, 余云龙

系统工程理论与实践 ›› 2020, Vol. 40 ›› Issue (10) : 2631-2647.

PDF(1191 KB)
中国科学院数学与系统科学研究院期刊网
PDF(1191 KB)
系统工程理论与实践 ›› 2020, Vol. 40 ›› Issue (10) : 2631-2647. DOI: 10.12011/1000-6788-2019-1614-17
论文

随机产出下商务模式对生鲜农产品供应链运作的影响

    冯颖1, 王远芳1, 张炎治1, 余云龙2
作者信息 +

Impact of business model on operation of the fresh agri-product supply chain under random output

    FENG Ying1, WANG Yuanfang1, ZHANG Yanzhi1, YU Yunlong2
Author information +
文章历史 +

摘要

生鲜农产品远距离运输中损耗现象的普遍存在,造成上下游企业之间采取的商务模式对于其供应链决策和运作有显著影响.考虑生鲜农产品随机产出和价值损耗的特性,分别构建了离岸价格和到岸价格两种商务模式下的分散决策博弈模型,证明了两种模式下的博弈均衡解均存在且唯一,同时发现系统取得内点均衡时,生产商的物流服务水平均与物流服务成本弹性函数与新鲜度水平弹性函数的比值相关.以集中决策为标杆,对比分析了各情形下的决策结果,发现系统取得内点均衡或最优时,计划满足率与决策方式和商务模式均无关;离岸价格模式下的库存因子低于到岸价格模式,且均低于集中决策的情形.进一步通过算例横向比较两种商务模式,发现:当转移支付价格和外购成本分别变化时,到岸价格模式下的零售商期望利润总是高于离岸价格模式,满足特定条件时,到岸价格模式是离岸价格模式的帕累托改善,到岸价格模式的实施有利于改善供应链系统的整体运作状况.

Abstract

The common loss phenomenon in the long distance transportation of fresh agri-products results in the significant influence of the business model adopted by upstream and downstream enterprises on their supply chain decision-making and operation. Considering the characteristics of fresh agri-products' random output and value loss, we build two decentralized decision-making game models under the FOB and the CIF model respectively. Then, the existence and uniqueness of the game equilibrium solutions under two models are proved and it is also found that the manufacturer's logistics service levels are connected with the ratio of logistics service cost elasticity function and freshness level elasticity function when the systems achieve interior point equilibrium. Taking centralized decision-making as the benchmark, the decision results in each situation are compared and analyzed. Consider the case that the system achieves internal point equilibrium or optimal solution, we found the plan satisfaction rate has no relationship with the decision-making mode and business model, the inventory factor under the FOB model is lower than that under CIF model and they both are lower than that under the centralized decision-making situation. Furthermore, a numerical example is given to compare the two business models. Research shows the retailer's expect profit under CIF model is always higher than that under FOB model, while the manufacturer's expect profit under CIF is higher than that under FOB model in certain conditions. Therefore, CIF model is a Pareto improvement of FOB model when the conditions is satisfied and the implement of CIF model is conducive to improving the in operations condition of the whole supply chain system.

关键词

随机产出 / 商务模式 / 生鲜农产品 / 供应链 / 价值损耗

Key words

random output / business model / fresh agri-product / supply chain / value loss

引用本文

EndNote

Ris (Procite)

Bibtex

导出引用
冯颖 , 王远芳 , 张炎治 , 余云龙. 随机产出下商务模式对生鲜农产品供应链运作的影响. 系统工程理论与实践, 2020, 40(10): 2631-2647 https://doi.org/10.12011/1000-6788-2019-1614-17
FENG Ying , WANG Yuanfang , ZHANG Yanzhi , YU Yunlong. Impact of business model on operation of the fresh agri-product supply chain under random output. Systems Engineering - Theory & Practice, 2020, 40(10): 2631-2647 https://doi.org/10.12011/1000-6788-2019-1614-17
中图分类号: F224   

参考文献

[1] Soto-Silva W E, Roig E N, Araya M C, et al. Operational research models applied to the fresh fruit supply chain[J]. European Journal of Operation Research, 2016, 251(2):345-355.
[2] Blackburn J, Scudder G. Supply chain strategies for perishable products:The case of fresh produce[J]. Production and Operations Management, 2009, 18(2):129-137.
[3] Cai X Q, Chen J, Xiao Y B, et al. Optimization and coordination of fresh product supply chains with freshness-keeping effort[J]. Production and Operations Management, 2010, 19(3):261-278.
[4] Cai X Q, Chen J, Xiao Y B, et al. Fresh-product supply chain management with logistics outsourcing[J]. Omega, 2013, 41(4):752-765.
[5] Cai X Q, Zhou X. Optimal policies for perishable products when transportation to export market is disrupted[J]. Production and Operations Management, 2014, 23(5):907-923.
[6] Gokarn S, Kuthambalayan T S. Creating sustainable fresh produce supply chains by managing uncertainties[J]. Journal of Cleaner Production, 2019, 207(10):908-919.
[7] He B, Gan X H, Yuan K F. Entry of online presale of fresh produce:A competitive analysis[J]. European Journal of Operational Research, 2019, 272(1):339-351.
[8] Jonkman J, Barbosa-Póvoa A P, Bloemhof J M. Integrating harvesting decisions in the design of agri-food supply chains[J]. European Journal of Operation Research, 2019, 276(1):247-258.
[9] Ma X, Wang S, Islam S M, et al. Coordinating a three-echelon fresh agricultural products supply chain considering freshness-keeping effort with asymmetric information[J]. Applied Mathematical Modelling, 2019, 69:337-356.
[10] Mohammadi H, Ghazanfari M, Pishvaee, M S, et al. Fresh-product supply chain coordination and waste reduction using a revenue-and-preservation-technology-investment-sharing contract:A real-life case study[J]. Journal of Cleaner Production, 2019, 213(10):262-282.
[11] Rong A, Akkerman R, Grunow M. An optimization approach for managing fresh food quality throughout the supply chain[J]. International Journal of Production Economics, 2011, 131(1):421-429.
[12] Su J N, Wu J B, Liu C G. Research on coordination of fresh produce supply chain in big market sales environment[J]. The Scientific World Journal, 2014. http://dx.doi.org/10.1155/2014/873980.
[13] Wu Q, Mu Y P, Feng Y. Coordinating contracts for fresh product outsourcing logistics channels with power structures[J]. International Journal of Production Economics, 2015, 160:94-105.
[14] Xiao Y B, Chen J. Supply chain management of fresh products with producer transportation[J]. Decision Sciences, 2012, 43(5):785-815.
[15] Yu Y L, Xiao T J. Pricing and cold-chain service level decisions in a fresh agri-products supply chain with logistics outsourcing[J]. Computer & Industrial Engineering, 2017, 111:56-66.
[16] 白世贞, 谢爽. 基于混合契约的生鲜电商供应链协调策略[J]. 控制与决策, 2018, 33(11):2104-2112. Bai S Z, Xie S. E-commerce of fresh agricultural products supply chain coordination based on compound contract[J]. Control and Decision, 2018, 33(11):2104-2112.
[17] 曹裕, 李业梅, 万光羽. 基于消费者效用的生鲜农产品供应链生鲜度激励机制研究[J]. 中国管理科学, 2018, 26(2):160-174. Cao Y, Li G M, Wan G Y. Study on the fresh degree incentive mechanism of fresh agricultural product supply chain based on consumer utility[J]. Chinese Journal of Management Science, 2018, 26(2):160-174.
[18] 但斌, 丁松, 伏红勇. 信息不对称下销地批发市场的生鲜供应链协调[J]. 管理科学学报, 2013, 16(10):40-50. Dan B, Ding S, Fu H Y. Fresh supply chain coordination by wholesale market in sale place under information asymmetry[J]. Journal of Management Sciences in China, 2013, 16(10):40-50.
[19] 冯颖, 余云龙, 张炎治, 等. TPL服务商参与决策的生鲜农产品三级供应链协调机制[J]. 管理工程学报, 2015, 29(4):213-221. Feng Y, Yu Y L, Zhang Y Z, et al. Coordination in a three-echelon supply chain of fresh agri-products with TPLSP's participation in decision-making[J]. Journal of Industrial Engineering and Engineering Management, 2015, 29(4):213-221.
[20] 李玉民, 吴元畅, 刘勇. 考虑退货期限的生鲜电商冷链宅配供应链决策与协调[J]. 计算机集成制造系统, 2020, 26(1):213-222. Li Y M, Wu Y C, Liu Y. Decision and coordination models for fresh products supply chain under home delivery mode with returns deadline[J]. Computer Integrated Manufacturing Systems, 2020, 26(1):213-222.
[21] 邵腾伟, 吕秀梅. 生鲜电商众筹预售与众包生产联合决策[J]. 系统工程理论与实践, 2018, 38(6):1502-1511. Shao T W, Lü X M. Joint decision between crowdfunding in preselling and crowdsourcing in production on fresh agricultural products[J]. Systems Engineering-Theory & Practice, 2018, 38(6):1502-1511.
[22] 王磊, 但斌. 考虑消费者效用的生鲜农产品供应链保鲜激励机制研究[J]. 管理工程学报, 2015, 29(1):200-206. Wang L, Dan B. The incentive mechanism for preservation in fresh agricultural supply chain considering consumer utility[J]. Journal of Industrial Engineering and Engineering Management, 2015, 29(1):200-206.
[23] 肖勇波, 陈剑, 徐小林. 到岸价格商务模式下涉及远距离运输的时鲜产品供应链协调[J]. 系统工程理论与实践, 2008, 28(2):19-25. Xiao Y B, Chen J, Xu X L. Fresh product supply chain coordination under CIF business model with long distance transportation[J]. Systems Engineering-Theory & Practice, 2008, 28(2):19-25.
[24] 郑琪, 范体军. 考虑风险偏好的生鲜农产品供应链激励契约设计[J]. 管理工程学报, 2018, 32(2):171-178. Zheng Q, Fan T J. Design of incentive contract for fresh agricultural products supply chain considering risk preference[J]. Journal of Industrial Engineering and Engineering Management, 2018, 32(2):171-178.
[25] 郑宇婷, 李建斌, 陈植元, 等. 不确定需求下的冷链分销商最优决策[J]. 管理科学学报, 2019, 22(1):94-106. Zheng Y T, Li J B, Chen Z Y, et al. Optimal decisions of cold chain distributor under uncertain in demand[J]. Journal of Management Sciences in China, 2019, 22(1):94-106.
[26] Güler M G, Keskin M E. On coordination under random yield and random demand[J]. Expert Systems with Applications, 2013, 40(9):3688-3695.
[27] Li X, Li Y J, Cai X Q. Double marginalization and coordination in the supply chain with uncertain supply[J]. European Journal of Operational Research, 2013, 226(2):228-236.
[28] He Y J, Zhang J. Random yield supply chain with a yield dependent secondary market[J]. European Journal of Operational Research, 2010, 206(1):221-230.
[29] Hu F, Lim C C, Lu Z D. Coordination of supply chains with a flexible ordering policy under yield and demand uncertainty[J]. International Journal of Production Economics, 2013, 146(2):686-693.
[30] 凌六一, 郭晓龙, 胡中菊, 等. 基于随机产出与随机需求的农产品供应链风险共担合同[J]. 中国管理科学, 2013, 21(2):50-57. Ling L Y, Guo X L, Hu Z J, et al. The risk-sharing contracts under random yield and stochastic demand in agricultural supply chain[J]. Chinese Journal of Management Science, 2013, 21(2):50-57.
[31] Cai X, Chen J, Xiao Y, et al. Coordination of manufacturer and distributor in a fresh product supply chain with uncertain transportation delays[R]. Hong Kong:The Chinese University of Hong Kong, 2005.
[32] He Y J, Zhang J. Random yield supply chain with a yield dependent secondary market[J]. European Journal of Operational Research, 2010, 206(1):221-230.
[33] Lariviere M A. A note on probability distributions with increasing generalized failure rates[J]. Operations Research, 2006, 54(3):602-604.

基金

中央高校基本科研业务经费(2017WB14)
PDF(1191 KB)

749

Accesses

0

Citation

Detail
段落导航
相关文章

/