8.3. Modelica frontiers

The objective of this chapter is to show that numerical tools are not static. There are people constantly working to make them better. This is particularly true for open source projects (e.g. Modelica language and the OpenModelica environment) where development is collaborative. This also means that you can contribute, for example by submitting bug reports (example from the 2019 course : https://trac.openmodelica.org/OpenModelica/ticket/5658).

8.3.1. Articles from Modelica conferences

Elmqvist, Otter, Matsson, 2012 “Fundamentals of Synchronous Control in Modelica” http://www.ep.liu.se/ecp/article.asp?issue=076&article=001&volume=

Elmqvist, Matsson, Otter, 2014 “Modelica extensions for Multi-Mode DAE Systems” http://www.ep.liu.se/ecp/article.asp?issue=096&article=019&volume=

Évora-Gómez et al., 2019 “Daccosim NG: co-simulation made simpler and faster” http://www.ep.liu.se/ecp/article.asp?issue=157&article=082&volume=

Luis Corona Mesa-Moles (EDF R&D) et al., 2019 “Robust Calibration of Complex ThermosysPro Models using Data Assimilation Techniques: Application on the Secondary System of a Pressurized Water Reactor” http://www.ep.liu.se/ecp/article.asp?issue=157&article=056&volume=

Agosta (Politecnico di Milano), 2019 “Towards a High-Performance Modelica Compiler” http://www.ep.liu.se/ecp/article.asp?issue=157&article=032&volume=

Pop (PELAB, Linköping, Sweden), 2019 “A New OpenModelica Compiler High Performance Frontend” http://www.ep.liu.se/ecp/article.asp?issue=157&article=071&volume=

Otter et al., 2015 “Formal Requirements Modeling for Simulation-Based Verification” http://www.ep.liu.se/ecp/article.asp?issue=118&article=067&volume=