All Stories

  1. Packing things in the right order
  2. A heuristic based on negative chordless cycles for the maximum balanced induced subgraph problem
  3. Software Architecture Quality of Service Analysis Based on Optimization Models
  4. One-dimensional cutting stock with a limited number of open stacks: bounds and solutions from a new integer linear programming model
  5. Cutting things in a convenient order
  6. Mathematical programming: Turing completeness and applications to software analysis
  7. Quantifying the influence of failure repair/mitigation costs on service-based systems
  8. Real industrial cutting processes have finite buffer capacities...
  9. A Lagrangian heuristic for satellite range scheduling with resource constraints
  10. Cutting stock with no three parts per pattern: Work-in-process and pattern minimization
  11. On minimizing cutting patterns to obtain small items from larger ones with a given trim loss
  12. Static Analysis by Abstract Interpretation: A Mathematical Programming Approach
  13. Mathematical programming based debugging
  14. Reducing trim loss while improving inventory management
  15. An optimization framework for “build-or-buy” decisions in software architecture
  16. Stock and cut optimization in automotive glass manufacturing
  17. Driving the selection of cots components on the basis of system requirements
  18. Double variable neighbourhood search with smoothing for the molecular distance geometry problem
  19. Capacitated lot sizing and scheduling with parallel machines and shared buffers: A case study in a packaging company
  20. Automated Selection of Software Components Based on Cost/Reliability Tradeoff
  21. Integrating process optimization and inventory planning in cutting-stock with skiving option: An optimization model and its application
  22. The Lazy Cook Problem, or Scheduling Two Parallel Machines to Optimize Vehicle Utilization
  23. Minimum Flow Time Graph Ordering
  24. Cutting and Reuse: An Application from Automobile Component Manufacturing
  25. THE LAZY COOK PROBLEM: SCHEDULING PARALLEL MACHINES TO OPTIMIZE VEHICLE UTILIZATION