Parallel Paper Sessions 

#1. Active Distribution Systems 

#2. Computation methods for demand modelling and demand response

#3. Computational methods

#4. Demand response: computational approaches

#5. Demand response: definition of services and validation

#6. Distributed energy resources impact and hosting capacity

#7. Electrical market design and coupling

#8. Electromagnetic transients I

#9. Electromagnetic transients II

#10. Energy storage optimisation and control

#11. Flexibility in power systems

#12. Hydrotermal generation coordination

#13. Inertia-less power systems

#14. Integrated energy systems in urban areas

#15. IT and telecom in modern power systems

#16. Management and planning of transmission assets

#17. Microgrids

#18. Modelling of new power systems components

#19. Optimal power flow I

#20. Optimal power flow II

#21. PMU-based monitoring

#22. Power electronics and HVDC I

#23. Power electronics and HVDC II

#24. Power systems protection and control

#25. Power systems dynamics and control I

#26. Power systems dynamics and control II

#27. Power systems protection

#28. Power systems stability

#29. Power systems voltage control

#30. Reliability in power distribution networks

#31. Renewable power generation: modelling and forecasting for operational and planning problems 

#32. Risk in power systems operation

#33. State estimation and short-term operation in power distribution networks 

#34. Static and dynamic state estimation

#35. Transmission and distribution planning I

#36. Transmission and distribution planning II

#37. Uncertainty management in power systems planning and operation

#38. Unit commitment and economic dispatch 

#39. Voltage control in active distribution networks 

#40. Wide power systems reliability and security