1. Energy-efficient Train Control and Timetabling.
2. Design of Energy-efficient Timetables in Two-way Rail Rapid Transit Lines.
3. Passenger Demands Oriented Train Scheduling.
4. Simultaneous Passenger Train Routing and Timetabling.
5. Integrated Train Scheduling a Delay Management in Real Time Railway Traffic Control.
6. Adjusting a Railway Timetable in Case of Partial or Complete Blockades.
7. Passenger Oriented Railway Disruption Management by Adapting Timetables and Vehicles Scheduling.
8. Locomotive Scheduling and Train Set Scheduling.
9. Cross-border Rail Transportation Performances Optimization.
10. Effective Railway Car Placement along the Train.
11. Train Design Optimization in Marshalling (Classification) Yards.
12. Train Platforming Problem.
13. Computational More Difficult Models of Queueing Theory for Modelling Rail Control Problems.
14. Stability and Punctuality of Rail Transport System Verification.
2. Design of Energy-efficient Timetables in Two-way Rail Rapid Transit Lines.
3. Passenger Demands Oriented Train Scheduling.
4. Simultaneous Passenger Train Routing and Timetabling.
5. Integrated Train Scheduling a Delay Management in Real Time Railway Traffic Control.
6. Adjusting a Railway Timetable in Case of Partial or Complete Blockades.
7. Passenger Oriented Railway Disruption Management by Adapting Timetables and Vehicles Scheduling.
8. Locomotive Scheduling and Train Set Scheduling.
9. Cross-border Rail Transportation Performances Optimization.
10. Effective Railway Car Placement along the Train.
11. Train Design Optimization in Marshalling (Classification) Yards.
12. Train Platforming Problem.
13. Computational More Difficult Models of Queueing Theory for Modelling Rail Control Problems.
14. Stability and Punctuality of Rail Transport System Verification.