Design and evaluation of a dynamic capacity apportionment procedure.
From MaRDI portal
Publication:1428052
DOI10.1016/S0377-2217(02)00860-3zbMath1044.90041OpenAlexW2143476318MaRDI QIDQ1428052
Publication date: 14 March 2004
Published in: European Journal of Operational Research (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/s0377-2217(02)00860-3
Management decision making, including multiple objectives (90B50) Approximation methods and heuristics in mathematical programming (90C59)
Related Items (7)
A resource portfolio planning model using sampling-based stochastic programming and genetic algorithm ⋮ A review of revenue management: recent generalizations and advances in industry applications ⋮ Reduce shortage with self-reservation policy for a manufacturer paying both fixed and variable stockout expenditure ⋮ A branch and price solution approach for order acceptance and capacity planning in make-to-order operations ⋮ The capacity planning problem in make-to-order enterprises ⋮ Revenue management approach to stochastic capacity allocation problem ⋮ Dynamic capacity reservation and due date quoting in a make-to-order system
Cites Work
- Unnamed Item
- Production to order. Models and rules for production planning
- On the Optimality of Trunk Reservation in Overflow Processes
- Service Constrained (s, S) Inventory Systems with Priority Demand Classes and Lost Sales
- Operating Characteristics of an Inventory System with Rationing
- Optimal Policies for a Multi-Echelon Inventory Problem with Periodic Ordering
- Explicit formulas for the order size and reorder point in certain inventory problems
- Inventory Rationing in a Make-to-Stock Production System with Several Demand Classes and Lost Sales
- A Multiproduct Dynamic Pricing Problem and Its Applications to Network Yield Management
- Optimal Starting Times for End-of-Season Sales and Optimal Stopping Times for Promotional Fares
- Airline Seat Allocation with Multiple Nested Fare Classes
- Optimal Ordering and Rationing Policies in a Nonstationary Dynamic Inventory Model with n Demand Classes
- A study of simple rules for subcontracting in make-to-order manufacturing
This page was built for publication: Design and evaluation of a dynamic capacity apportionment procedure.
