Combined Use of Mathematical Optimization and Design of Experiments for the Maximization of Profit in a Four‐Echelon Supply Chain

Vera, Daniel Arturo Olivares; Olivares-Benítez, Elìas; Rivera, Eleazar Puente; López-Campos, Mónica; Miranda, Pablo A.

doi:10.1155/2018/8731027

Cited by 6 publications

(2 citation statements)

References 41 publications

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“…Excel Solver program was used to solve the proposed model and scenario analysis. Vera et al [15] propose a mixed-integer linear programming model that analyzes the effects of capacity, quality, delivery time, and interest rate factors on supply chain profit. In the model, the cost of poor quality was studied for the quality factor and process adequacy indices were used.…”

Section: The Model Formulationmentioning

confidence: 99%

Modelling of just-in-time distrubution network under raw material quality and time constraints

GÜRSOY¹

2021

Sigma J Eng Nat Sci - Sigma Müh Fen Bil Derg

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Just-in-time (JIT) delivery is one of the key delivery strategies that enable the right quality product to reach the point of demand at the right time without creating unnecessary costs in the supply chain network. The concepts of quality and time are two main factors to be considered in this issue. Particularly because the variability in quality directly affects cost and time, it is very important for JIT delivery. In this study, the effect of raw material quality within the supply chain network which tries to ensure JIT delivery is examined. For this, a multi-stage, multi-period mixed-integer mathematical model is proposed in the study. The model aims to minimize the total supply chain cost by trying to balance the purchasing and quality costs for manufacturers. In addition to standard constraints, the stock balance and time constraints have been developed for JIT delivery. As a result of the model resolved with the GAMS Distribution 21.6 program, 34.5% of the raw material supplied from suppliers is provided from 1st quality raw materials, while 65.5% is provided from 2nd quality raw materials. Despite its low purchasing costs, 3rd quality raw material has not been preferred by the producers in any period because it causes a delay in JIT delivery. Besides, it is seen that deliveries are made very close to the maximum delivery time of distribution centers, depending on the variability in raw material quality. It is understood that raw material quality is an important concept in a JIT supply chain network due to its significant impact on time.

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Section: The Model Formulationmentioning

confidence: 99%

Modelling of just-in-time distrubution network under raw material quality and time constraints

GÜRSOY¹

2021

Sigma J Eng Nat Sci - Sigma Müh Fen Bil Derg

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“…On this basis, Hamed et al [26] constructed a multiobjective integer programming model with the smallest cost and the best service level to study the optimal product quality level decision of the four-level supply chain. Olivares et al [27] used a mixed-integer linear programming model to study the location selection plan to maximize the profit of the four-level supply chain system from the perspective of distribution center location selection. Hasanov et al [28] studied the optimal production and inventory decisions of a four-level closed-loop supply chain with the goal of minimizing the total cost of a closed-loop supply chain.…”

Section: Optimal Decisions Of the Multilevel Supply Chainmentioning

confidence: 99%

Decision Optimization of Four-Level Supply Chain with the Participation of Two-Echelon Logistics Service Providers under Different Power Structures

Jian-jun

Song

2021

Mathematical Problems in Engineering

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Taking the four-level supply chain participated by two-echelon logistics service providers as the research object, this paper deeply studies the influence of different power structures on the optimal price and logistics service level decisions of the whole supply chain system. On this basis, this paper points out the optimal power structure of the whole supply chain system and then discusses the optimal cooperative decision-making mode to improve the operation efficiency of the supply chain system under optimal power structure. The results show that compared with the two power structures of manufacturer-led and logistics service integrator-led, the retailer-led structure is the optimal power structure, whether from the perspective of maximizing the total profit of the supply chain or the surplus of consumers. When the supply chain is facing consumers who are less sensitive to the retail price of products and more sensitive to the logistics service level, the advantages of retail-led decentralized supply chain are more significant. The centralized decision of product supply chain (PSC) and logistics service supply chain (LSSC) under different power structures is the dominant strategy, and the equilibrium strategy is Nash game adopted by both parties. At this time, the total profit of the supply chain system is the largest and the total social welfare is the largest, while the total profit and consumer surplus of the supply chain under LSSC-led structure are the smallest. When the supply chain is facing consumers with low sensitivity of logistics service level and product retail price, PSC and LSSC have more significant advantages in Nash game rather than Stackelberg game.

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Inventory replenishment decisions model for the supplier selection problem facing low perfect rate situations

2019

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Combined Use of Mathematical Optimization and Design of Experiments for the Maximization of Profit in a Four‐Echelon Supply Chain

Cited by 6 publications

References 41 publications

Modelling of just-in-time distrubution network under raw material quality and time constraints

Modelling of just-in-time distrubution network under raw material quality and time constraints

Decision Optimization of Four-Level Supply Chain with the Participation of Two-Echelon Logistics Service Providers under Different Power Structures

Inventory replenishment decisions model for the supplier selection problem facing low perfect rate situations

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