A hybrid fuzzy approach for the closed-loop supply chain network design under uncertainty

Tavakkoli–Moghaddam, Reza; Sadri, Shadi; Pourmohammad-Zia, Nadia; Mohammadi, Mehrdad

doi:10.3233/ifs-151561

Cited by 13 publications

(8 citation statements)

References 30 publications

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“…The quality levels for the products and considering the product complexity is another active topic in the CLSC management. For example, Tavakkoli-Moghaddam et al (2015) proposed a location-routing problem with time windows and earliness and tardiness costs. They considered a multi-echelon SCN with supplier selection, facility location and allocation, routing of transportation systems, and different quality levels of the products.…”

Section: Introduction and Literature Reviewmentioning

confidence: 99%

RETRACTED ARTICLE: Closed-loop supply chain network design with sustainability and resiliency criteria

Shabbir

Mahmood

Setiawan

et al. 2021

Environ Sci Pollut Res

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Today, the research on the closed-loop supply chain network design with sustainability and resiliency criteria is a very active research topic. This paper provides a new closed-loop supply chain under uncertainty with the use of resiliency, sustainability, and reliability dimensions among the first studies. To model this problem, a two-stage stochastic programming approach is used. To create robust solutions against uncertainty, a conditional value at risk criterion is contributed. The proposed model aims to minimize the total cost, environmental pollution, and energy consumption while maximizing the job opportunities as the social factor. In addition to the sustainability goals, the energy consumption is considered to be the last objective to be minimized. To show the applicability of the proposed model, an automobile assembler industry is applied. To solve the model, the Lp-metric method is employed to transform this multi-objective model into a single objective one. Since this closed-loop supply chain model is complex and NP-hard, a Lagrangian relaxation method with fix-and-optimize heuristic is employed to find the upper and lower bounds for the model via different random test problems. With an extensive analysis, the proposed model shows an improvement to the total cost, CO 2 emissions, job opportunities and energy consumption.

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Section: Introduction and Literature Reviewmentioning

confidence: 99%

RETRACTED ARTICLE: Closed-loop supply chain network design with sustainability and resiliency criteria

Shabbir

Mahmood

Setiawan

et al. 2021

Environ Sci Pollut Res

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show abstract

“…Two positive covariates for each absolute value function appear as a summation in objective functions (34) -(37) and as a difference in constraints (38), (39), (42), (45), and (48). For linearizing the max function of CVaR in the objective functions of (1) -(4), another covariate should be defined for each objective function which is added to constraints (40) -(41), (43) -(44), (46) - (47), and (49) -(50). The constraint (51) is regarding decision covariates, which are positive for removing absolute functions from the objective functions (1) -(4).…”

Section: 6mentioning

confidence: 99%

“…The results showed that using lateral transshipment and extra inventory reduces the costs. Tavakkoli-Moghaddam et al [47] proposed a CLSC model which promotes innovations such as supplier selection at different quality levels, integration of disposal and rework facilities, considering the environmental factors including production pollution and defect in disposal, and addressing the time-windows of customer's order, and earliness/tardiness costs. The possibilistic fuzzy approach is performed to account for the uncertainty in the parameters.…”

mentioning

confidence: 99%

A robust optimization model for sustainable and resilient closed-loop supply chain network design considering conditional value at risk

Lotfi¹,

Mehrjerdi²,

Pishvaee³

et al. 2021

NACO

120

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“…(22) if (exp(−Δ / ) > random) then (23) NowPlan = NewPlan; (24) end if (25) end if (26) ( ) − −; (27) end while//inner circulation (28) = /(1 + * ); //Cool down the temperature. (29) if ( is low enough) then (30) set a large . (40) while (Invoke the method of bool) do (41) while (Invoke the method of augment) do (42) for ( = 1 to visited.length) do (43) visited[ ] = false; (44) end for (45) end while (46) end while (47) return mincost; Pseudocode 1 …”

Section: Determination Of Temperature Constants Andmentioning

confidence: 99%

“…All these branches are applied to many fields like firefighting units [24], emergency services [16,25,26], healthcare location [27], gas marketing hubs [28], factory sites [29], supply chain network [30][31][32], and so on [33]. Nowadays, with the development of Internet, more and more people surf the Internet to watch videos.…”

Section: Introductionmentioning

confidence: 99%

Location of Facility Based on Simulated Annealing and “ZKW” Algorithms

Dong

Wang

Feng-hua

et al. 2017

Mathematical Problems in Engineering

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To cope with the facility location problem, a method based on simulated annealing and "ZKW" algorithm is proposed in this article. The method is applied to some real cases, which aims to deploy video content server at appropriate nodes in an undirected graph to satisfy the requirements of the consumption nodes with the least cost. Simulated annealing can easily find the optimum with less reliance on the initial solution. "ZKW" algorithm can find the shortest path and calculate the least cost from the server node to consumption node quickly. The results of three kinds of cases illustrate the efficiency of our method, which can obtain the optimum within 90 s. A comparison with Dijkstra and Floyd algorithms shows that, by using "ZKW" algorithm, the method can have large iteration with limited time. Therefore, the proposed method is able to solve this video content server location problem.

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A hybrid fuzzy approach for the closed-loop supply chain network design under uncertainty

Cited by 13 publications

References 30 publications

RETRACTED ARTICLE: Closed-loop supply chain network design with sustainability and resiliency criteria

RETRACTED ARTICLE: Closed-loop supply chain network design with sustainability and resiliency criteria

A robust optimization model for sustainable and resilient closed-loop supply chain network design considering conditional value at risk

Location of Facility Based on Simulated Annealing and “ZKW” Algorithms

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