考量在回收補貼機制下製造商新舊世代產品與再製品之最佳定價與補貼策略

Wei-Sheng Tsai; 蔡維升

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/51150

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	蔣明晃
dc.contributor.author	Wei-Sheng Tsai	en
dc.contributor.author	蔡維升	zh_TW
dc.date.accessioned	2021-06-15T13:26:10Z	-
dc.date.available	2021-04-15
dc.date.copyright	2016-04-15
dc.date.issued	2016
dc.date.submitted	2016-03-29
dc.identifier.citation	Atasu, A., M. Sarvary and L. N. V. Wassenhove (2008), 'Remanufacturing as a Marketing Strategy', Management Science, 54(10), 1731-1746. Ayres, R., G. Ferrer and T. Van Leynseele (1997), 'Eco-Efficiency, Asset Recovery and Remanufacturing', European Management Journal, 15(5), 557-574. Chen, J.-M. and C.-I. Chang (2013), 'Dynamic Pricing for New and Remanufactured Products in a Closed-Loop Supply Chain', International Journal of Production Economics, 146(1), 153-160. Debo, L. G., L. B. Toktay and L. N. Van Wassenhove (2005), 'Market Segmentation and Product Technology Selection for Remanufacturable Products', Management Science, 51(8), 1193-1205. Dekker, R., J. Bloemhof and I. Mallidis (2012), 'Operations Research for Green Logistics - an Overview of Aspects, Issues, Contributions and Challenges', European Journal of Operational Research, 219(3), 671-679. Ferrer, G. and J. M. Swaminathan (2006), 'Managing New and Remanufactured Products', Management Science, 52(1), 15-26. Ferrer, G. and J. M. Swaminathan (2010), 'Managing New and Differentiated Remanufactured Products', European Journal of Operational Research, 203(2), 370-379. Fleischmann, M., J. M. Bloemhof-Ruwaard, R. Dekker, E. van der Laan, J. A. E. E. van Nunen and L. N. Van Wassenhove (1997), 'Quantitative Models for Reverse Logistics: A Review', European Journal of Operational Research, 103(1), 1-17. Fleischmann, M., H. R. Krikke, R. Dekker and S. D. P. Flapper (2000), 'A Characterisation of Logistics Networks for Product Recovery', Omega, 28(6), 653-666. Gan, S. S., I. N. Pujawan, Suparno and B. Widodo (2015), 'Pricing Decision Model for New and Remanufactured Short-Life Cycle Products with Time-Dependent Demand', Operations Research Perspectives, 2 1-12. Guide Jr, V. D. R., V. Jayaraman and J. D. Linton (2003), 'Building Contingency Planning for Closed-Loop Supply Chains with Product Recovery', Journal of Operations Management, 21(3), 259-279. Guide Jr, V. D. R. and L. N. Van Wassenhove (2001), 'Managing Product Returns for Remanufacturing', Production and Operations Management, 10(2), 142-155. Guide Jr, V. D. R. and L. N. Van Wassenhove (2009), 'The Evolution of Closed-Loop Supply Chain Research', Operations Research, 57(1), 10-18. Helo, P. (2004), 'Managing Agility and Productivity in the Electronics Industry', Industrial Management and Data Systems, 104(7), 567-577. Hsueh, C. F. (2011), 'An Inventory Control Model with Consideration of Remanufacturing and Product Life Cycle', International Journal of Production Economics, 133(2), 645-652. Ilgin, M. A. and S. M. Gupta (2010), 'Environmentally Conscious Manufacturing and Product Recovery (Ecmpro): A Review of the State of the Art', Journal of Environmental Management, 91(3), 563-591. Lebreton, B. and A. Tuma (2006), 'A Quantitative Approach to Assessing the Profitability of Car and Truck Tire Remanufacturing', International Journal of Production Economics, 104(2), 639-652. Li, X., J. Zhang, X. Ding and X. Yang (2013), 'Managing New, Remanufactured and Upgraded Products under a Coupon Recycling Environment', Service Systems and Service Management (ICSSSM), 2013 10th International Conference on. Ovchinnikov, A. (2011), 'Revenue and Cost Management for Remanufactured Products', Production and Operations Management, 20(6), 824-840. Paucar-Caceres, A. and A. Espinosa (2011), 'Management Science Methodologies in Environmental Management and Sustainability: Discourses and Applications', Journal of the Operational Research Society, 62(9), 1601-1620. Pohlen, T. L. and M. T. Farris (1992), 'Reverse Logistics in Plastics Recycling', International Journal of Physical Distribution & Logistics Management, 22(7), 35-47. Qiaolun, G., J. Jianhua and G. Tiegang (2008), 'Pricing Management for a Closed-Loop Supply Chain', J Revenue Pricing Manag, 7(1), 45-60. Quariguasi-Frota-Neto, J. and J. Bloemhof (2012), 'An Analysis of the Eco-Efficiency of Remanufactured Personal Computers and Mobile Phones', Production and Operations Management, 21(1), 101-114. Rathore, P., S. Kota and A. Chakrabarti (2011), 'Sustainability through Remanufacturing in India: A Case Study on Mobile Handsets', Journal of Cleaner Production, 19(15), 1709-1722. Sarkis, J. (2003), 'A Strategic Decision Framework for Green Supply Chain Management', Journal of Cleaner Production, 11(4), 397-409. Savaskan, R. C., S. Bhattacharya and L. N. V. Wassenhove (2004), 'Closed-Loop Supply Chain Models with Product Remanufacturing', Management Science, 50(2), 239-252. Savaskan, R. C. and L. N. Van Wassenhove (2006), 'Reverse Channel Design: The Case of Competing Retailers', Management Science, 52(1), 1-14. Souza, G. C. (2009), 'Remanufacturing in Closed-Loop Supply Chains', Prod Invent Manag J, 45(1), 56-66. Subramanian, R., M. E. Ferguson and L. B. Toktay (2011), 'Remanufacturing and the Component Commonality Decision', Production and Operations Management, 22(1), 36-53. Tang, C. S. and S. Zhou (2012), 'Research Advances in Environmentally and Socially Sustainable Operations', European Journal of Operational Research, 223(3), 585-594. Tellis, G. J. (1986), 'Beyond the Many Faces of Price: An Integration of Pricing Strategies', Journal of Marketing, 50(4), 146-160. Vasudevan, H., V. Kalamkar and R. Terkar (2012), 'Remanufacturing for Sustainable Development: Key Challenges, Elements, and Benefits', International Journal of Innovation, Management and Technology, 3(1), 84-89. Vatiero, M. (2010), 'The Ordoliberal Notion of Market Power: An Institutionalist Reassessment', European Competition Journal, 6(3), 689-707. Vernon, R. (1966), 'International Investment and International Trade in the Product Cycle', The Quarterly Journal of Economics, 80(2), 190-207. Wang, J., J. Zhao and X. Wang (2011), 'Optimum Policy in Hybrid Manufacturing/Remanufacturing System', Computers and Industrial Engineering, 60(3), 411-419. Wang, K.-H. and C.-T. Tung (2011), 'Construction of a Model Towards Eoq and Pricing Strategy for Gradually Obsolescent Products', Applied Mathematics and Computation, 217(16), 6926-6933. Zhao, X., K. E. Stecke and A. Prasad (2012), 'Lead Time and Price Quotation Mode Selection: Uniform or Differentiated?', Production and Operations Management, 21(1), 177-193.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/51150	-
dc.description.abstract	在全球化競爭的消費市場中，企業為應對日益加劇的市場競爭並刺激消費需求，加速產品推陳出時程，導致產品生命週期縮短，連帶加快汰換進度。當產品需求逐漸平緩，企業選擇在此時推出新世代產品吸引消費者目光，增加新的消費需求並確保自身產品的市占率與收益。另一方面，隨著氣候異常日漸嚴重，環保意識增長，各國政府與區域經貿組織開始制定環保法規，規範企業除生產銷售新製品外，對於已銷售的產品，亦須負擔回收與再利用的責任。企業為兼顧利益與符合環保法規，必須建構一個多產品定價與回收補貼及再製機制。因此，本研究欲探討新舊世代產品與再製品在回收補貼機制下，企業涉入綠色供應鏈的最適定價與補貼策略。本研究從製造商的角度出發，目標為最大化製造商收益，運用回收補貼機制，研討企業在考量多世代產品與再製品及回收補貼定價下涉入綠色供應鏈之定價決策。透過非線性時間需求函數與線性價格需求函數，建立多階段需求模型。並考慮新舊世代新製產品之最大市場需求比率、新世代新製品之售價增額與舊世代再製品獲利倍數對企業獲利產生的影響，以此模型架構求解出不同情境下企業之最適產品定價與回收補貼策略，作為企業制定產品定價與補貼決策之參考。根據本研究建立之基礎與特殊假設模型分析得知，較大的製造商市場力量將有助於製造商在逆物流中獲取利潤，且經由敏感度分析與實驗設計得知，較大的新世代新品市場規模將有助於企業收益的提升，而新世代新品售價增額則為差別定價之成功關鍵，最適化新世代新品售價增額與舊世代再製品獲利倍數將有助於製造商利潤的提升。	zh_TW
dc.description.abstract	In the competitive global market, the life cycle of the new product is decreasing due to the companies must to maintain market share, the products improve continuously to attract more consumers, so that the changing over speed is increasing dramatically. When the product demand gradually gentle, companies have chosen to launch a new generation of products to attract the consumers, increase consumer demand for new products and to ensure their own market share and earnings. For another, because of the climate change, environmental protection attracts a lot of attention, many countries establish green regulations and ask companies to take their responsibility. To balance earnings and environmental regulations, companies must to must construct a multi-product pricing, remake and subsidy recovery mechanism. Therefore, the study explore an optimal pricing strategy and subsidy policy with companies involvement in Green Supply Chain (GSC) that takes the multigenerational of new and remake product under subsidy recovery mechanism. For the manufacturer, the goal is to maximize profit. The manufacturer use subsidy tools to study optimal pricing and subsidy policy of company. This research builds multistage demand model under products price and life time to find the optimal pricing and subsidy policy for manufacturer’s reference. In addition the above, we consider the ratio of maximum demand and premium for upgraded and remake product, thus investigating the effect of those factors on the optimal pricing, subsidy policy and total profit of company by numerical analysis. The results show that larger upgraded product market size and manufacturer market power are beneficial to the increase in manufacturer’s profit, so manufacturer could obtain the better outcome of extending the market size; besides, this study finds the sticking point in price discrimination is the premium for upgrade product. In the end, the numerical analysis also shows that the larger market size and optimal premium of upgraded and remake product, which could obtain the better profit of manufacturer. It is expected that this study will help manufacturer implement better strategy and further stimulate the development of GSC.	en
dc.description.provenance	Made available in DSpace on 2021-06-15T13:26:10Z (GMT). No. of bitstreams: 1 ntu-105-R02546019-1.pdf: 5409371 bytes, checksum: 6f2c17601326f5a32b35d9f351665c91 (MD5) Previous issue date: 2016	en
dc.description.tableofcontents	口試委員會審定書........................................I 誌謝....................................................II 中文摘要................................................III ABSTRACT................................................IV 目錄....................................................VI 圖目錄..................................................X 表目錄..................................................XII 第一章緒論............................................1 1.1 研究背景與動機..................................1 1.2 研究目的........................................4 1.3 研究架構........................................5 1.4 論文架構........................................6 第二章文獻探討........................................8 2.1 綠色供應鏈與逆物流運作模式......................8 2.2 產品生命週期相關概念............................12 2.3 產品定價模式比較................................16 2.4 模型比較........................................17 第三章模型建構與求解..................................21 3.1 研究情境........................................21 3.2 分析架構與模型假設..............................22 3.2.1 製造商提供新舊世代新品與再製品之綠色供應鏈流程..23 3.2.2 新舊世代產品與再製品隨時間與價格變動下需求函數..24 3.2.3 模型假設........................................26 3.3 新舊世代產品與再製品及回收補貼之定價模型建構....29 3.3.1 模型符號定義....................................29 3.3.2 模型關係式及限制式..............................32 3.3.3 模型架構........................................35 3.4 基礎模型求解....................................38 3.5 特殊假設模型求解................................43 第四章數值分析........................................48 4.1 相關數值設定....................................48 4.2 數值分析........................................49 4.2.1 基礎模型數值分析................................49 4.2.2 特殊假設模型數值分析............................53 4.2.3 兩模型數值分析小結..............................54 4.3 敏感度分析......................................55 4.3.1 新舊世代新製品最大市場需求比率(β)的影響........56 4.3.2 新世代新品相較舊世代新品之售價增額(φ)的影響....61 4.3.3 舊世代再製品獲利倍數(α)的影響..................67 4.4 實驗設計分析....................................72 4.4.1 各因子設定......................................73 4.4.2 總利潤因子分析..................................74 4.5 小結............................................76 第五章結論與建議......................................78 5.1 研究結論與管理意涵..............................78 5.2 研究貢獻........................................79 5.3 研究限制........................................81 5.4 未來研究方向....................................81 參考文獻................................................83 附錄....................................................87
dc.language.iso	zh-TW
dc.subject	綠色供應鏈	zh_TW
dc.subject	產品生命週期	zh_TW
dc.subject	回收補貼	zh_TW
dc.subject	多世代產品	zh_TW
dc.subject	定價策略	zh_TW
dc.subject	產品生命週期	zh_TW
dc.subject	回收補貼	zh_TW
dc.subject	綠色供應鏈	zh_TW
dc.subject	多世代產品	zh_TW
dc.subject	定價策略	zh_TW
dc.subject	Green Supply Chain	en
dc.subject	Recycling Subsidy	en
dc.subject	Multigenerational Product	en
dc.subject	Product Life Cycle	en
dc.subject	Pricing Strategy	en
dc.subject	Multigenerational Product	en
dc.subject	Green Supply Chain	en
dc.subject	Recycling Subsidy	en
dc.subject	Pricing Strategy	en
dc.subject	Product Life Cycle	en
dc.title	考量在回收補貼機制下製造商新舊世代產品與再製品之最佳定價與補貼策略	zh_TW
dc.title	Optimal Pricing and Subsidy Strategy of Manufacturer with New, Upgraded and Remanufactured Products	en
dc.type	Thesis
dc.date.schoolyear	104-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	洪一薰,郭佳瑋
dc.subject.keyword	產品生命週期,回收補貼,綠色供應鏈,多世代產品,定價策略,	zh_TW
dc.subject.keyword	Product Life Cycle,Recycling Subsidy,Green Supply Chain,Multigenerational Product,Pricing Strategy,	en
dc.relation.page	90
dc.identifier.doi	10.6342/NTU201600164
dc.rights.note	有償授權
dc.date.accepted	2016-03-29
dc.contributor.author-college	工學院	zh_TW
dc.contributor.author-dept	工業工程學研究所	zh_TW
顯示於系所單位：	工業工程學研究所

文件中的檔案：

檔案	大小	格式
ntu-105-1.pdf 未授權公開取用	5.28 MB	Adobe PDF

顯示文件簡單紀錄

系統中的文件，除了特別指名其著作權條款之外，均受到著作權保護，並且保留所有的權利。