makartetsky/model_checking_hybrid
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======================= = BRIEF DESCRIPTION ======================= This application is the attempt to implement model checking (verification and controller synthesis) for DTLHS. The main idea is using Fourier-Motzkin procedure to get rid of real variables and using NuSMV software to handle obtained system. The latest version of this software is always available at http://github.com/darth/model_checking_hybrid/ ======================= = AUTHORS ======================= Our development team: * Vadim Alimguzhin <darth@darth.su> * Anton Bogin <anton.bogin@gmail.com> * Viktoriya Kozyreva <viktoriya.kozyreva@gmail.com> * Denis Makartetskiy <makartetsky@gmail.com> ======================= = WHAT IS DONE ======================= At this moment the following process is implemented: 1) read DTLHS from the input file; 2) eliminate output variables; 3) make quantization of DTLHS; 4) eliminate real parts of variables; 5) build equisatisfiable CNFs for the systems of linear constraints from DTLHS; 6) compose input file for NuSMV software; 7) launch verification using NuSMV; 8) read counterexample from xml file, if verification process fails. ======================= = TODO ======================= Implement: * building SMV model directly using CUDD OBDD package; * working with NuSMV through its api; * complete the whole chain (both verification and controller synthesis). ======================= = BUILDING ======================= Prerequisites: * GNU C++ compiler * GNU make utility * GMP library (with C++ bindings) http://gmplib.org/ * FM library Original version: http://www-rocq.inria.fr/~pouchet/software/fm/ We use modified version, it is available at: http://github.com/darth/fm_lib_with_gmp/ * Xerces-C++ library http://xerces.apache.org/xerces-c/ * Minisat+ http://minisat.se/MiniSat+.html We use slightly modified version, it is included in the sources (directory 'minisat+'). Run % make release for building release binary. Run % make debug for building debug binary. Run % make for building both of them. Run % make clean for cleaning after (un)successful build. ======================= = USING ======================= Prerequisites: * NuSMV software http://nusmv.irst.itc.it/ Help for the application using can be obtained by invocation it with '-h' ('--help') parameter. % ./project.exe -h Prototype of model checker for hybrid systems 0.1 usage: ./project.exe [-v level] [-q value] filename read model from "filename" and verify with "value" of q_param or: ./project.exe -h print help message If verbosity value is more than 0 result of intermediate steps are printed to the standard output. Examples of input files are in the directory 'examples'. The format is simple and self-explaining. ======================= = DOCUMENTATION ======================= Doxygen documentation can be obtained by running % make doc Doxygen software is needed for this step. Generated documentation will be in the 'doc' directory. ======================= = FILES ======================= build/ Directory for object files for release binary. build_debug/ Directory for object files for debug binary. doc/ Directory for documentation. examples/ Directory with sample input files. minisat+/ Minisat+ sources. src/ Directory with header and source files. Doxyfile Configuration file for Doxygen. Makefile Project's makefile. README This file. nusmv_cmds File with commands for NuSMV interactive mode.
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This application is the attempt to implement model checking (verification and controller synthesis) for DTLHS. The main idea is using Fourier-Motzkin procedure to get rid of real variables and using NuSMV software to handle obtained system.
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