The goal of the project is to:
* create a complete Modelica modeling, compilation and simulation environment
* based on free software distributed in binary and source code form.
Scicos is a graphical dynamical system modeler and simulator. With Scicos you can create block diagrams to model and simulate the dynamics of hybrid dynamical systems and compile your models into executable code. Scicos is used for signal processing, systems control, queuing systems, and to study physical and biological systems. New extensions allow generation of component based modeling of electrical and hydraulic circuits using the Modelica language.
Scilab ist ein freies Software-Paket für Anwendungen aus der numerischen Mathematik, das seit 1990 als Alternative zu MATLAB entwickelt wird. Die Funktionalität und Syntax von Scilab ist zu weiten Teilen mit der von MATLAB identisch und es gibt Konverter von MATLAB nach Scilab.
The object-oriented modeling language Modelica is designed to allow convenient, component-oriented modeling of complex physical systems, e.g., systems containing mechanical, electrical, electronic, hydraulic, thermal, control, electric power or process-oriented subcomponents. The free Modelica language, free Modelica libraries and Modelica simulation tools are available, ready-to-use and have been utilized in demanding industrial applications, including hardware-in-the-loop simulations. The development and promotion of Modelica is organized by the non-profit Modelica Association.
GNU Octave is a high-level language, primarily intended for numerical computations. It provides a convenient command line interface for solving linear and nonlinear problems numerically, and for performing other numerical experiments using a language that is mostly compatible with Matlab.
CO-LaN (the CAPE-OPEN Laboratories Network) is a neutral industry and academic association promoting open interface standards in process simulation software. CO-LaN members are committed to making Computer Aided Process Engineering (CAPE) easier, faster and less expensive by achieving complete interoperability of CO compliant commercial CAPE software tools. CO-LaN supports and maintains CAPE-OPEN interface standards.
Rob sees three key areas where rules can help:
Tighter warranty controls
Claims processing is improved because financial limits, detailed coverage types, materials return and more can be automated and rapidly changed when necessary. The rules also allow “what-if” testing and impact analysis.
Better built vehicles
The decision making is tracked very closely thanks to rules so you can analyze specific repair types, specific VINs and so on. More effective parts return and generally better information also contribute.
Lower cost repairs
Rules allow goodwill repairs, labor-only repairs and specific kinds of repairs to be managed very precisely. Rules-driven decisioning can reduce the variation of costs between dealers and help intervene, rejecting or editing claims that seem overly expensive. The ability of rules to deploy data mining and predictive analytics can also really help here.
B. Gottschall, L. Eeckhout, and M. Jahre. MICRO-54: 54th Annual IEEE/ACM International Symposium on Microarchitecture, page 15--27. ACM, (Oct 17, 2021)
T. Licht, L. Dohmen, P. Schmitz, L. Schmidt, and H. Luczak. Proceedings of the European Simulation and Modelling Conference (Paris 2004), page 188-195 *** Best Paper Award ***. Ghent, EUROSIS-ETI, (2004)
A. Künzer, L. Schmidt, C. Schlick, and H. Luczak. Autonome Produktionszellen: Komplexe Produktionsprozesse flexibel automatisieren, Springer, Berlin, (2006)
T. Licht, L. Schmidt, C. Schlick, L. Dohmen, and H. Luczak. The Future of Product Development: Proceedings of the 17th CIRP Design Conference (Berlin 2007), page 543–554. Berlin, Springer, (2007)