A variational inequality formulation for designing a multi-echelon, multi-product supply chain network in a competitive environment
DOI10.1007/s10479-017-2737-3zbMath1390.90536OpenAlexW2779794807MaRDI QIDQ1639276
Isa Feyzian-Tary, Mohamad Sadegh Sangari, Jafar Razmi
Publication date: 12 June 2018
Published in: Annals of Operations Research (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s10479-017-2737-3
variational inequalityNash equilibriummulti-productsupply chain network design (SCND)dynamic competitionmodified projection method
Applications of mathematical programming (90C90) Noncooperative games (91A10) Complementarity and equilibrium problems and variational inequalities (finite dimensions) (aspects of mathematical programming) (90C33)
Cites Work
- Unnamed Item
- Branch-and-bound algorithm for a competitive facility location problem
- Location equilibria for a continuous competitive facility location problem under delivered pricing
- Approximating the Pareto-front of a planar bi-objective competitive facility location and design problem
- A robust model for a leader-follower competitive facility location problem in a discrete space
- Supply chain networks with global outsourcing and quick-response production under demand and cost uncertainty
- A supply chain network game theory model of cybersecurity investments with nonlinear budget constraints
- Strategic design of competing supply chain networks with foresight
- Retail competition and cooperative advertising
- Environmental supply chain network design using multi-objective fuzzy mathematical programming
- Pricing policies under direct vs. indirect channel competition and national vs. store brand competition
- Competitive facility location model with concave demand
- Strategic design of competing centralized supply chain networks for markets with deterministic demands
- Robust supply chain network design with service level against disruptions and demand uncertainties: a real-life case
- A supply chain network game theory model with product differentiation, outsourcing of production and distribution, and quality and price competition
- Optimal design of multi-echelon supply chain networks under normally distributed demand
- Designing multi-period supply chain network considering risk and emission: a multi-objective approach
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