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2023 | OriginalPaper | Buchkapitel

Multichannel Sustainable Supply Chain Network Design: Review and Research Directions

verfasst von : T. Niranjan, Sonu Rajak, P. Parthiban

Erschienen in: Recent Trends in Mechanical Engineering

Verlag: Springer Nature Singapore

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Abstract

A powerful, effective, and strong supply chain network system is a feasible upper hand for nations and firms and helps them to adapt to expanding natural turbulences and more exceptional aggressive weights. The supply chain network modeling is an important research area in the current scenario, and a lot of work is being done to optimize the network design to maximize profit and minimize the costs as well as dealing with uncertainties in the market. Recently, the supply chain network design is also being studied under the spectrum of environmental impacts and sustainability. Today, a mix of a physical channel and online channel serves customer needs more adequately than utilizing a single channel. This multichannel supply chain network provides choice, flexibility, and better responsiveness for firms. This review covered the available literature focusing on all these various aspects under one umbrella and addressed few research directions in the multichannel perspective to incorporate the changes in the supply chain models.

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Cakravastiaa A, Tohab IS, Nakamuraa N (2002) A two-stage model for the design of supply chain networks. Int J Prod Econ 80:231–248CrossRef

Altiparmak F, Gen M, Lin L, Paksoy T (2006) A genetic algorithm approach for multi-objective optimization of supply chain networks. Comput Ind Eng 51:196–215

Javid AA, Azad N (2010) Incorporating location, routing and inventory decisions in supply chain network design. Transp Res Part E 46:582–597CrossRef

Nagurney A (2010) Supply chain network design under profit maximization and oligopolistic competition. Transp Res Part E 46:281–294CrossRef

Costa A, Celano G, Fichera S, Trovato E (2010) A new efficient encoding/decoding procedure for the design of a supply chain network with genetic algorithms. Comput Ind Eng 59:986–999CrossRef

Nagurney A (2010) Optimal supply chain network design and redesign at minimal total cost and with demand satisfaction. Int J Prod Econ 128:200–208CrossRef

Pishvaee MS, Rabbani M, Torabi SA (2011) A robust optimization approach to closed-loop supply chain network design under uncertainty. Appl Math Model 35(2):637–649MathSciNetCrossRefMATH

Zuo-Jun MS (2006) A profit-maximizing supply chain network design model with demand choice flexibility. Oper Res Lett 34:673–682MathSciNetCrossRefMATH

Azaron KN, Brown SA, Tarim MM (2008) A multi-objective stochastic programming approach for supply chain design considering risk. Int J Prod Econ 116:129–138CrossRef

10.

Lin C-C, Wang T-H (2011) Build-to-order supply chain network design under supply and demand uncertainties. Transp Res Part B 45:1162–1176CrossRef

11.

Neto JQ, Bloemhof-Ruwaard JM, van Nunen JA, van Heck E (2008) Designing and evaluating sustainable logistics networks. Int J Prod Econ 111:195–208

12.

Nagurney A, Nagurney LS (2010) Sustainable supply chain network design: a multicriteria perspective. Int J Sustain Eng 3(3):189–197CrossRefMATH

13.

Wang F, Lai X, Shi N (2011) A multi-objective optimization for green supply chain network design. Decis Support Syst 51:262–269

14.

Elhedhli S, Merrick R (2012) Green supply chain network design to reduce carbon emissions. Transp Res Part D 17:370–379CrossRef

15.

Ahi P, Searcy C (2015) An analysis of metrics used to measure performance in green and sustainable supply chains. J Clean Prod 86:360–377CrossRefMATH

16.

Arampantzi C, Minis I (2017) A new model for designing sustainable supply chain networks and its application to a global manufacturer. J Clean Prod 156(2017):276–292CrossRef

17.

Mota B, Gomes MI, Carvalho A, Barbosa-Povoa AP (2018) Sustainable supply chains: an integrated modeling approach under uncertainty. Omega 1–26

18.

Varsei M, Polyakovskiy S (2017) Sustainable supply chain network design: a case of the wine industry in Australia. Omega 6:236–247CrossRef

19.

Ding H, Liu Q, Zheng L (2016) Assessing the economic performance of an environmental sustainable supply chain in reducing environmental externalities. Eur J Oper Res 255:463–480MathSciNetCrossRefMATH

20.

Carvalho H, Govindan K, Azevedo SG, Cruz-Machado V (2017) Modelling green and lean supply chains: an eco-efficiency perspective. Resour Conserv Recycl 120:75–87CrossRef

21.

Das K, Posinasetti NR (2015) Addressing environmental concerns in closed loop supply chain design and planning. Int J Prod Econ 163:34–47CrossRef

22.

Musavi M, Bozorgi-Amiri A (2017) A multi-objective sustainable hub location-scheduling problem for perishable food supply chain. Comput Ind Eng

23.

Kannan G, Noorul Haq A, Devika M (2009) Analysis of closed loop supply chain using genetic algorithm and particle swarm optimisation. Int J Prod Res 47(5):1175–1200CrossRef

24.

Rezapour S, Farahani RZ, Fahimnia B, Govindan K, Mansouri Y (2015)Competitive closed-loop supply chain network design with price-dependent demands. J Clean Prod 93:251–272

25.

Kaya O, Urek B (2016) A mixed integer nonlinear programming model and heuristic solutions for location, inventory and pricing decisions in a closed loop supply chain. Comput Oper Res 65:93–103MathSciNetCrossRefMATH

26.

Yi P, Huang M, Guo L, Shi T (2016) A retailer oriented closed-loop supply chain network design for end of life construction machinery remanufacturing. J Clean Prod 124:191–203CrossRef

27.

Masoudipour E, Amirian H, Sahraeian R (2017) A novel closed-loop supply chain based on the quality of returned products. J Clean Prod 151:344–355CrossRef

28.

Jindal A, Sangwan KS, Saxena S (2015) Network design and optimization for multi-product, multi-time, multi-echelon closed-loop supply chain under uncertainty. Procedia Cirp 29:656–661CrossRef

29.

Garg K, Kannan D, Diabat A, Jha PC (2015) A multi-criteria optimization approach to manage environmental issues in closed loop supply chain network design. J Clean Prod 100:297–314CrossRef

30.

Amin SH, Zhang G, Akhtar P (2017) Effects of uncertainty on a tire closed-loop supply chain network. Expert Syst Appl 73:82–91CrossRef

31.

Zhang S, Lee CKM, Kan W, Choy KL (2016) Multi-objective optimization for sustainable supply chain network design considering multiple distribution channels. Expert Syst Appl 65:87–99CrossRef

32.

Barzinpour F, Taki P (2016) A dual-channel network design model in a green supply chain considering pricing and transportation mode choice. J Intell Manuf. https://doi.org/10.1007/s10845-015-1190-xCrossRef

33.

Costantini V, Crespi F, Marin G, Paglialunga E (2017) Eco-innovation, sustainable supply chains and environmental performance in European industries. J Clean Prod 155:141–154

34.

Yu J, Gan M, Ni S, Chen D (2018) Multi-objective models and real case study for dual-channel FAP supply chain network design with fuzzy information. J Intell Manuf 29(2):389–403CrossRef

35.

Biswas T, Samanta S (2016) A strategic decision support system for logistics and supply chain network design. Sādhanā 41(6):583–588MathSciNetCrossRefMATH

36.

Niranjan T, Parthiban P, Sundaram K, Jeyaganesan PN (2019) Designing a omnichannel closed loop green supply chain network adapting preferences of rational customers.Sādhanā 44(3):1–10

37.

Niranjan T, Parthiban P (2019) Modelling and analysing an integrated multi channel food supply chain distribution of an Indian dairy firm using modified TLBO algorithm

38.

Han X, Wu H, Yang Q, Shang J (2017) Collection channel and production decisions in a closed-loop supply chain with remanufacturing cost disruption. Int J Prod Res 55(4):1147–1167CrossRef

39.

Liu L, Feng L, Xu B, Deng W (2020) Operation strategies for an omni-channel supply chain: who is better off taking on the online channel and offline service? Electron Commer Res Appl 39:100918

40.

De Borba JLG, De Magalhães MR, Filgueiras RS, Bouzon M (2020) Barriers in omnichannel retailing returns: a conceptual framework. Int J Retail Distrib Manag

41.

Shi S, Wang Y, Chen X, Zhang Q (2020) Conceptualization of omnichannel customer experience and its impact on shopping intention: a mixed-method approach. Int J Inf Manag 50:325–336CrossRef

42.

Berman B, Thelen S (2018) Planning and implementing an effective omnichannel marketing program. Int J Retail Distrib Manag

43.

Song G, Song S, Sun L (2019) Supply chain integration in omni-channel retailing: a logistics perspective. Int J Logist Manag

44.

Ye Y, Lau KH, Teo LKY (2018) Drivers and barriers of omni-channel retailing in China. Int J Retail Distrib Manag

45.

Wei Y, Li F (2020) Omnichannel supply chain operations for luxury products with conspicuous consumers. Transp Res Part E: Logist Transp Rev 137:101918CrossRef

46.

Yan B, Chen YR, Zhou XT, Fang J (2019) Consumer behavior in the omni-channel supply chain under social networking services. Ind Manag Data Syst

Titel: Multichannel Sustainable Supply Chain Network Design: Review and Research Directions
verfasst von: T. Niranjan
Sonu Rajak
P. Parthiban
Verlag: Springer Nature Singapore
Buch: Recent Trends in Mechanical Engineering
Print ISBN: 978-981-19-7708-4

Electronic ISBN: 978-981-19-7709-1

Copyright-Jahr: 2023
DOI: https://doi.org/10.1007/978-981-19-7709-1_39

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