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# ******************************************************************************
# MontiCAR Modeling Family,
# Copyright (c) 2017, Software Engineering Group at RWTH Aachen,
# All rights reserved.
# This project is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 3.0 of the License, or (at your option) any later version.
# This library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# Lesser General Public License for more details.
# You should have received a copy of the GNU Lesser General Public
# License along with this project. If not, see <>.
# *******************************************************************************
image: maven:3-jdk-8
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\BOOKMARK [0][-]{chapter.1}{Introduction}{}% 1
\BOOKMARK [0][-]{chapter.2}{Preliminaries}{}% 2
\BOOKMARK [1][-]{section.2.1}{Massive multiplayer online gaming}{chapter.2}% 3
\BOOKMARK [1][-]{section.2.2}{Area of Interest}{chapter.2}% 4
\BOOKMARK [1][-]{section.2.3}{Architectures}{chapter.2}% 5
\BOOKMARK [2][-]{subsection.2.3.1}{Peer-to-peer}{section.2.3}% 6
\BOOKMARK [2][-]{subsection.2.3.2}{Client/server}{section.2.3}% 7
\BOOKMARK [1][-]{section.2.4}{Distributing mechanisms}{chapter.2}% 8
\BOOKMARK [2][-]{subsection.2.4.1}{Sharding}{section.2.4}% 9
\BOOKMARK [2][-]{subsection.2.4.2}{Cloning}{section.2.4}% 10
\BOOKMARK [2][-]{subsection.2.4.3}{Zoning}{section.2.4}% 11
\BOOKMARK [2][-]{subsection.2.4.4}{Instancing}{section.2.4}% 12
\BOOKMARK [1][-]{section.2.5}{Advanced distributed architectures}{chapter.2}% 13
\BOOKMARK [2][-]{subsection.2.5.1}{Proxy-server architecture}{section.2.5}% 14
\BOOKMARK [2][-]{subsection.2.5.2}{Distributed architecture combined with zoning technique}{section.2.5}% 15
\BOOKMARK [1][-]{section.2.6}{Model-View-Controller pattern}{chapter.2}% 16
\BOOKMARK [0][-]{chapter.3}{Technical Requisites}{}% 17
\BOOKMARK [1][-]{section.3.1}{SmartFoxServer}{chapter.3}% 18
\BOOKMARK [2][-]{subsection.3.1.1}{Web Server}{section.3.1}% 19
\BOOKMARK [2][-]{subsection.3.1.2}{Web Services}{section.3.1}% 20
\BOOKMARK [2][-]{subsection.3.1.3}{Data serialization}{section.3.1}% 21
\BOOKMARK [2][-]{subsection.3.1.4}{Scope Management}{section.3.1}% 22
\BOOKMARK [2][-]{subsection.3.1.5}{Data access and server monitoring}{section.3.1}% 23
\BOOKMARK [1][-]{section.3.2}{ThreeJS}{chapter.3}% 24
\BOOKMARK [1][-]{section.3.3}{PostgreSQL database}{chapter.3}% 25
\BOOKMARK [0][-]{chapter.4}{Simulation Platform}{}% 26
\BOOKMARK [1][-]{section.4.1}{Challenges}{chapter.4}% 27
\BOOKMARK [1][-]{section.4.2}{Architecture}{chapter.4}% 28
\BOOKMARK [1][-]{section.4.3}{Basic work-flow}{chapter.4}% 29
\BOOKMARK [2][-]{subsection.4.3.1}{Zone level}{section.4.3}% 30
\BOOKMARK [2][-]{subsection.4.3.2}{Room level}{section.4.3}% 31
\BOOKMARK [1][-]{section.4.4}{Virtual World}{chapter.4}% 32
\BOOKMARK [2][-]{subsection.4.4.1}{Zoning approach}{section.4.4}% 33
\BOOKMARK [1][-]{section.4.5}{Path Finder}{chapter.4}% 34
\BOOKMARK [1][-]{section.4.6}{Database optimization}{chapter.4}% 35
\BOOKMARK [1][-]{section.4.7}{Web Communication}{chapter.4}% 36
\BOOKMARK [1][-]{section.4.8}{Simulation}{chapter.4}% 37
\BOOKMARK [2][-]{subsection.4.8.1}{Simulation Controller}{section.4.8}% 38
\BOOKMARK [2][-]{subsection.4.8.2}{Mediator}{section.4.8}% 39
\BOOKMARK [2][-]{subsection.4.8.3}{Scenarios}{section.4.8}% 40
\BOOKMARK [2][-]{subsection.4.8.4}{Synchronization and Visualization}{section.4.8}% 41
\BOOKMARK [1][-]{section.4.9}{Configuration}{chapter.4}% 42
\BOOKMARK [1][-]{section.4.10}{Security}{chapter.4}% 43
\BOOKMARK [0][-]{chapter.5}{Evaluation}{}% 44
\BOOKMARK [0][-]{chapter.6}{Future Work}{}% 45
\BOOKMARK [1][-]{section.6.1}{Single simulation per vehicle}{chapter.6}% 46
\BOOKMARK [1][-]{section.6.2}{Online model development, test and deployment}{chapter.6}% 47
\BOOKMARK [0][-]{chapter.7}{Conclusion}{}% 48
\BOOKMARK [0][-]{chapter.7}{Bibliography}{}% 49
\BOOKMARK [0][-]{chapter.1}{Einleitung}{}% 1
\BOOKMARK [1][-]{section.1.1}{Eins - Eins}{chapter.1}% 2
\BOOKMARK [2][-]{subsection.1.1.1}{Eins - Eins - Eins}{section.1.1}% 3
\BOOKMARK [0][-]{chapter.2}{Z3 theorem solver}{}% 4
\BOOKMARK [1][-]{section.2.1}{Z3 basics}{chapter.2}% 5
\BOOKMARK [0][-]{chapter.3}{Elimination of internal variables of automatons that including non-linear parts}{}% 6
\BOOKMARK [1][-]{section.3.1}{Exemplified workflow of matching internal variables }{chapter.3}% 7
\BOOKMARK [2][-]{subsection.3.1.1}{Automatons for comparison}{section.3.1}% 8
\BOOKMARK [2][-]{subsection.3.1.2}{First step of the procedure. Detecting non-linear equations.}{section.3.1}% 9
\BOOKMARK [2][-]{subsection.3.1.3}{Second step of the procedure. Calculation of non linear coefficients.}{section.3.1}% 10
\BOOKMARK [2][-]{subsection.3.1.4}{Unfolding and simulation}{section.3.1}% 11
\BOOKMARK [0][-]{chapter.4}{Code Listings}{}% 12
\BOOKMARK [0][-]{chapter.5}{Zusammenfassung und Ausblick}{}% 13
\BOOKMARK [0][-]{figure.caption.11}{Literaturverzeichnis}{}% 14
\BOOKMARK [0][-]{appendix.A}{z.B. Programmdokumentation}{}% 15
\BOOKMARK [0][-]{chapter.1}{Introduction}{}% 1
\BOOKMARK [0][-]{chapter.2}{Related Work}{}% 2
\BOOKMARK [0][-]{chapter.3}{Theoretical Background}{}% 3
\BOOKMARK [1][-]{section.3.1}{Input/Output Extended Finite Automaton\(I/O-EFA\)}{chapter.3}% 4
\BOOKMARK [1][-]{section.3.2}{Input/Output Transition System}{chapter.3}% 5
\BOOKMARK [1][-]{section.3.3}{Simulation relation}{chapter.3}% 6
\BOOKMARK [0][-]{chapter.4}{Using Isabelle prove assistant for compatibility check}{}% 7
\BOOKMARK [1][-]{section.4.1}{Simulink components}{chapter.4}% 8
\BOOKMARK [1][-]{section.4.2}{Application of Isabelle}{chapter.4}% 9
\BOOKMARK [1][-]{section.4.3}{Global variables test using Isabelle theorem prover}{chapter.4}% 10
\BOOKMARK [0][-]{chapter.5}{Elimination of internal variables of I/O-EFA automatons that including non-linear parts}{}% 11
\BOOKMARK [1][-]{section.5.1}{Z3 Solver basics}{chapter.5}% 12
\BOOKMARK [1][-]{section.5.2}{Exemplified workflow of matching internal variables of I/O-EFAs containing non-linear dependencies}{chapter.5}% 13
\BOOKMARK [2][-]{subsection.5.2.1}{Previous approach}{section.5.2}% 14
\BOOKMARK [2][-]{subsection.5.2.2}{Automatons for comparison}{section.5.2}% 15
\BOOKMARK [2][-]{subsection.5.2.3}{First step of the procedure. Detecting non-linear equations.}{section.5.2}% 16
\BOOKMARK [2][-]{subsection.5.2.4}{Second step of the procedure. Calculation of linear coefficients.}{section.5.2}% 17
\BOOKMARK [2][-]{subsection.5.2.5}{Unfolding and simulation}{section.5.2}% 18
\BOOKMARK [0][-]{chapter.6}{Index tree optimization for transition filtering}{}% 19
\BOOKMARK [1][-]{section.6.1}{Previous approach of transition filtering optimization}{chapter.6}% 20
\BOOKMARK [1][-]{section.6.2}{Building of index tree}{chapter.6}% 21
\BOOKMARK [1][-]{section.6.3}{Evaluation}{chapter.6}% 22
\BOOKMARK [0][-]{chapter.7}{Clone detection and transformation to I/O-FEA of control flow graphs}{}% 23
\BOOKMARK [1][-]{section.7.1}{Approach with control flow graphs trees}{chapter.7}% 24
\BOOKMARK [1][-]{section.7.2}{Applied approach for substitution, clone detection and separation on output port basis}{chapter.7}% 25
\BOOKMARK [2][-]{subsection.7.2.1}{Substitution}{section.7.2}% 26
\BOOKMARK [2][-]{subsection.7.2.2}{Clone detection}{section.7.2}% 27
\BOOKMARK [2][-]{subsection.7.2.3}{Separation on output port basis}{section.7.2}% 28
\BOOKMARK [1][-]{section.7.3}{Improvements}{chapter.7}% 29
\BOOKMARK [0][-]{chapter.8}{Disjunctive Normal Form Optimization}{}% 30
\BOOKMARK [1][-]{section.8.1}{1st Step: Guard to Guard Normal Form \(GNF\) Transformation}{chapter.8}% 31
\BOOKMARK [1][-]{section.8.2}{2nd Step: Guard-NF to Guard Disjunctive Normal Form \(GDNF\) Transformation}{chapter.8}% 32
\BOOKMARK [2][-]{subsection.8.2.1}{3rd Step: Guard-DNF to Hash-Guard Disjunctive Normal Form \(HGDNF\) Transformation}{section.8.2}% 33
\BOOKMARK [2][-]{subsection.8.2.2}{4th Step: HGDNF to Optimized HGDNF Transformation}{section.8.2}% 34
\BOOKMARK [0][-]{chapter.9}{Code Listings}{}% 35
\BOOKMARK [1][-]{section.9.1}{Isabelle listing}{chapter.9}% 36
\BOOKMARK [1][-]{section.9.2}{Z3 listings}{chapter.9}% 37
\BOOKMARK [1][-]{section.9.3}{Java listings}{chapter.9}% 38
\BOOKMARK [0][-]{chapter.10}{Zusammenfassung und Ausblick}{}% 39
\BOOKMARK [0][-]{figure.caption.23}{Literaturverzeichnis}{}% 40
\BOOKMARK [0][-]{appendix.A}{z.B. Programmdokumentation}{}% 41
\BOOKMARK [0][-]{chapter.1}{Introduction}{}% 1
\BOOKMARK [0][-]{chapter.2}{Motivation}{}% 2
\BOOKMARK [0][-]{chapter.3}{Related Work}{}% 3
\BOOKMARK [0][-]{chapter.4}{Theoretical Background}{}% 4
\BOOKMARK [1][-]{section.4.1}{Input/Output Extended Finite Automaton\(I/O-EFA\)}{chapter.4}% 5
\BOOKMARK [1][-]{section.4.2}{Input/Output Transition System}{chapter.4}% 6
\BOOKMARK [1][-]{section.4.3}{Simulation relation}{chapter.4}% 7
\BOOKMARK [0][-]{chapter.5}{Using Isabelle prove assistant for compatibility check}{}% 8
\BOOKMARK [1][-]{section.5.1}{Simulink components}{chapter.5}% 9
\BOOKMARK [1][-]{section.5.2}{Application of Isabelle}{chapter.5}% 10
\BOOKMARK [1][-]{section.5.3}{Global variables test using Isabelle theorem prover}{chapter.5}% 11
\BOOKMARK [0][-]{chapter.6}{Elimination of internal variables of I/O-EFA automatons that including non-linear parts}{}% 12
\BOOKMARK [1][-]{section.6.1}{Z3 Solver basics}{chapter.6}% 13
\BOOKMARK [1][-]{section.6.2}{Exemplified workflow of matching internal variables of I/O-EFAs containing non-linear dependencies}{chapter.6}% 14
\BOOKMARK [2][-]{subsection.6.2.1}{Previous approach}{section.6.2}% 15
\BOOKMARK [2][-]{subsection.6.2.2}{Automatons for comparison}{section.6.2}% 16
\BOOKMARK [2][-]{subsection.6.2.3}{First step of the procedure. Detecting non-linear equations.}{section.6.2}% 17
\BOOKMARK [2][-]{subsection.6.2.4}{Second step of the procedure. Calculation of linear coefficients.}{section.6.2}% 18
\BOOKMARK [2][-]{subsection.6.2.5}{Unfolding and simulation}{section.6.2}% 19
\BOOKMARK [0][-]{chapter.7}{Index tree optimization for transition filtering}{}% 20
\BOOKMARK [1][-]{section.7.1}{Previous approach of transition filtering optimization}{chapter.7}% 21
\BOOKMARK [1][-]{section.7.2}{Building of index tree}{chapter.7}% 22
\BOOKMARK [1][-]{section.7.3}{Evaluation}{chapter.7}% 23
\BOOKMARK [0][-]{chapter.8}{Clone detection and transformation to I/O-FEA of control flow graphs}{}% 24
\BOOKMARK [1][-]{section.8.1}{Approach with control flow graphs trees}{chapter.8}% 25
\BOOKMARK [1][-]{section.8.2}{Applied approach for substitution, clone detection and separation on output port basis}{chapter.8}% 26
\BOOKMARK [2][-]{subsection.8.2.1}{Substitution}{section.8.2}% 27
\BOOKMARK [2][-]{subsection.8.2.2}{Clone detection}{section.8.2}% 28
\BOOKMARK [2][-]{subsection.8.2.3}{Separation on output port basis}{section.8.2}% 29
\BOOKMARK [1][-]{section.8.3}{Improvements}{chapter.8}% 30
\BOOKMARK [0][-]{chapter.9}{Disjunctive Normal Form Optimization}{}% 31
\BOOKMARK [1][-]{section.9.1}{1st Step: Guard to Guard Normal Form \(GNF\) Transformation}{chapter.9}% 32
\BOOKMARK [1][-]{section.9.2}{2nd Step: Guard-NF to Guard Disjunctive Normal Form \(GDNF\) Transformation}{chapter.9}% 33
\BOOKMARK [2][-]{subsection.9.2.1}{3rd Step: Guard-DNF to Hash-Guard Disjunctive Normal Form \(HGDNF\) Transformation}{section.9.2}% 34
\BOOKMARK [2][-]{subsection.9.2.2}{4th Step: HGDNF to Optimized HGDNF Transformation}{section.9.2}% 35
\BOOKMARK [0][-]{chapter.10}{Code Listings}{}% 36
\BOOKMARK [1][-]{section.10.1}{Isabelle listing}{chapter.10}% 37
\BOOKMARK [1][-]{section.10.2}{Z3 listings}{chapter.10}% 38
\BOOKMARK [1][-]{section.10.3}{Java listings}{chapter.10}% 39
\BOOKMARK [0][-]{chapter.11}{Zusammenfassung und Ausblick}{}% 40
\BOOKMARK [0][-]{figure.caption.25}{Literaturverzeichnis}{}% 41
\BOOKMARK [0][-]{appendix.A}{z.B. Programmdokumentation}{}% 42
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