- Continuation of the development of the DEEPSO code in C++.
- Meeting with the supervisor at FEUP.
Week 3 24/feb-3/mar
- Meeting with the supervisor at INESC TEC.
- Due to the inexistent difference between the random libraries of C++ and Matlab and the existing power flow module and DEEPSO code in MATLAB, it was decided that the application would be developed in MATLAB.
- Familiarization with the MATPOWER module.
- Development of the deterministic model of the application with the preexistent code of DEEPSO.
Week 4 3-9/mar
- Literature research.
Week 5 10-16/mar
- Continuation of the development of the first deterministic model of the application.
- Meeting with the supervisor at INESC TEC.
Week 6 17-23/mar
- Continuation of the development of the first deterministic model of the application.
- Meeting with the supervisor at INESC TEC.
- Website update.
Week 7 24-30/mar
- Development of economic power dispatch for integration in the models.
- Meeting with the supervisor at INESC TEC.
Week 8 31/mar-6/apr
- Meeting with the supervisor at FEUP.
- Study of FACTS devices modelling for Power Flow studies.
Week 9 7-13/abr
- Further literature research and organisation.
- Development of a deterministic model with only FACTS.
- Meeting with the supervisor at INESC TEC.
Week 10 14-20/abr
- Parameter tuning of the first model developed.
- Preliminar testing to both models developed.
- Meeting with the supervisor at INESC TEC.
Week 11 21-27/abr
- Beginning of the state of the art writing.
- Meeting with the supervisor at INESC TEC.
- Development of the final deterministic model.
Week 12 28/apr-4/may
- Finishing of the final deterministic model development.
- Writing of the state of the art.
- Parameter tuning of the deterministic model.
- Meeting with the supervisor at INESC TEC.
Week 13 5-11/may
- Early development of the model with load and generation uncertainty.