Using Benders decomposition to implicitly model tour scheduling
From MaRDI portal
Publication:596429
DOI10.1023/B:ANOR.0000019101.29692.2czbMath1056.90073MaRDI QIDQ596429
Monia Rekik, Jean-François Cordeau, François Soumis
Publication date: 10 August 2004
Published in: Annals of Operations Research (Search for Journal in Brave)
Related Items
Grammar-Based Integer Programming Models for Multi-Activity Shift Scheduling ⋮ An implicit model for multi-activity shift scheduling problems ⋮ Retail store scheduling for profit ⋮ A Benders decomposition-based matheuristic for the cardinality constrained shift design problem ⋮ Branch-and-Price for Personalized Multiactivity Tour Scheduling ⋮ Combining Benders decomposition and column generation for multi-activity tour scheduling ⋮ Modeling and solving a real-life multi-skill shift design problem ⋮ The flexible break assignment problem for large tour scheduling problems with an application to airport ground handlers ⋮ Scheduling Security Personnel for the Vancouver 2010 Winter Olympic Games ⋮ Heuristics for Large Scale Labour Scheduling Problems in Retail Sector ⋮ Decomposition techniques with mixed integer programming and heuristics for home healthcare planning ⋮ Formal languages for integer programming modeling of shift scheduling problems ⋮ Solution approaches to large shift scheduling problems ⋮ Alternative MIP formulations for an integrated shift scheduling and task assignment problem ⋮ Bechtold-Jacobs generalized model for shift scheduling with extraordinary overlap ⋮ Implicit shift scheduling with multiple breaks and work stretch duration restrictions ⋮ A large neighbourhood search approach to the multi-activity shift scheduling problem ⋮ A two-stage solution approach for personalized multi-department multi-day shift scheduling ⋮ The venue management problem: setting staffing levels, shifts and shift schedules at concession stands ⋮ Solving multi-activity multi-day shift scheduling problems with a hybrid heuristic
This page was built for publication: Using Benders decomposition to implicitly model tour scheduling
