Mathematical Modelling and Optimization for Complex Production under Supply Chain Management
A special issue of Mathematics (ISSN 2227-7390). This special issue belongs to the section "Financial Mathematics".
Deadline for manuscript submissions: 31 December 2024 | Viewed by 4783
Special Issue Editors
Interests: smart production; reliability; production planning and control; inventory management; supply chain management; bio-fuel
Special Issues, Collections and Topics in MDPI journals
Interests: supply chain management; optimization; artificial intelligence; smart production; mathematical modelling; inventory management; smart logistics; biomathematics; circular economy; sustainability; renewable energy
Special Issues, Collections and Topics in MDPI journals
Special Issue Information
Dear Colleagues:
An important challenge for most industrial management systems is to simultaneously consider the optimization of many decision variables under the coordination or non-coordination of supply chain management (SCM).
Any classical optimization technique can obtain the solution if the number of decision variables is less than ten. However, for the complex or smart products, the number of decision variables is much more higher and are extremely nonlinear. Thus, finding the solution to these SCM becomes a tedious job for the researcher. As a result, any nonlinear optimization, meta-heuristic, fuzzy optimization, or data science (artificial intelligence approaches) is utilized to obtain the solution, which, however, may not achieve the optimum solution. This is the major gap in the present research on supply chain management. This Special Issue aims to discuss major nonlinear approaches or other optimizations to solve supply chain problems with many decision variables, selecting industry and SCM problems for further development.
This Special Issue aims to simplify several applications of SCM, utilizing the best optimization technique to obtain the optimum solution rather than simply the best solution among others. The applicability of these two aspects in any large-scale SCM model is acceptable. Thus, new approaches, methodologies, modelling, and technology utilization are sufficient for solving complex supply chain management.
Potential topics to be covered:
- Nonlinear approaches: constrained and unconstrained nonlinear problems;
- Meta-heuristic methods;
- Convex optimization;
- Robust optimization;
- Optimization by artificial intelligence;
- Fuzzy optimization.
Dr. Mitali Sarkar
Prof. Dr. Biswajit Sarkar
Guest Editors
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