Mojtaba Heydari scite author profile

Relief logistics is one of the most important elements of a relief operation. This paper investigates a relief chain design problem where not only demands but also supplies and the cost of procurement and transportation are considered as the uncertain parameters. Furthermore, the model considers uncertainty for the locations where those demands can arise and the possibility that a number of the facility could be partially destroyed by the disaster. The proposed model for this study is formulated as a mixed-integer nonlinear programming to minimize the sum of the expected total cost (which includes costs of location, procurement, transportation, holding, and shortage) and the variance of the total cost. The model simultaneously determines the location of relief distribution centers and the allocation of affected area to relief distribution centers. Furthermore, an efficient solution approach based on particle swarm optimization is developed in order to solve the proposed mathematical model. At last, computational results for several instances of the problem are presented to demonstrate the feasibility and effectiveness of the proposed model and algorithm.

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A multi-objective model for multi-product multi-site aggregate production planning in a green supply chain: Considering collection and recycling centers

Entezaminia

Heydari

Rahmani

2016

Journal of Manufacturing Systems

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Robust and stable flow shop scheduling with unexpected arrivals of new jobs and uncertain processing times

Rahmani

Heydari

2014

Journal of Manufacturing Systems

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Accelerating Benders decomposition approach for robust aggregate production planning of products with a very limited expiration date

Makui

Heydari

Aazami

et al. 2016

Computers & Industrial Engineering

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A robust optimization model for multi-product two-stage capacitated production planning under uncertainty

Rahmani

Ramezanian

Fattahi

et al. 2013

Applied Mathematical Modelling

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Mojtaba Heydari

A modified particle swarm optimization for disaster relief logistics under uncertain environment

A multi-objective model for multi-product multi-site aggregate production planning in a green supply chain: Considering collection and recycling centers

Robust and stable flow shop scheduling with unexpected arrivals of new jobs and uncertain processing times

Accelerating Benders decomposition approach for robust aggregate production planning of products with a very limited expiration date

A robust optimization model for multi-product two-stage capacitated production planning under uncertainty

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