Criticality Analysis in Activity-on-Node Networks with Minimal Time Lags Vicente VallsPilar Lino OriginalPaper Pages: 17 - 37
Due Date-Based Metrics for Activity Importance in Stochastic Activity Networks R.A. Bowman OriginalPaper Pages: 39 - 48
A Computational Study on Bounding the Makespan Distribution in Stochastic Project Networks Arfst LudwigRolf H. MöhringFrederik Stork OriginalPaper Pages: 49 - 64
A Competitive Heuristic Solution Technique for Resource-Constrained Project Scheduling Pilar TormosAntonio Lova OriginalPaper Pages: 65 - 81
A Robust Genetic Algorithm for Resource Allocation in Project Scheduling J. AlcarazC. Maroto OriginalPaper Pages: 83 - 109
Project Scheduling with Multiple Modes: A Genetic Algorithm Sönke Hartmann OriginalPaper Pages: 111 - 135
Simulated Annealing for Multi-Mode Resource-Constrained Project Scheduling Joanna JózefowskaMarek MikaJan Węglarz OriginalPaper Pages: 137 - 155
Uncertainty Modelling in Software Development Projects (With Case Study) Linet ÖzdamarEbru Alanya OriginalPaper Pages: 157 - 178
An Exact Procedure for the Resource-Constrained Weighted Earliness–Tardiness Project Scheduling Problem Mario VanhouckeErik DemeulemeesterWilly Herroelen OriginalPaper Pages: 179 - 196
A Two Stage Search Heuristic for Scheduling Payments in Projects Nalini DayanandRema Padman OriginalPaper Pages: 197 - 220
Maximizing the Net Present Value of a Project Under Resource Constraints Using a Lagrangian Relaxation Based Heuristic with Tight Upper Bounds A. Kimms OriginalPaper Pages: 221 - 236
Four Payment Models for the Multi-Mode Resource Constrained Project Scheduling Problem with Discounted Cash Flows Gündüz UlusoyFunda Sivrikaya-ŞerifoğluŞule Şahin OriginalPaper Pages: 237 - 261
Analysis of Scheduling Schemes and Heuristic Rules Performance in Resource-Constrained Multiproject Scheduling Antonio LovaPilar Tormos OriginalPaper Pages: 263 - 286
Multiple-Project Scheduling with Controllable Project Duration and Hard Resource Constraint: Some Solvable Cases Chung-Yee LeeLei Lei OriginalPaper Pages: 287 - 307