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Formal Verification of Simulink/Stateflow Diagrams A Deductive Approach

Zhan Naijun Wang, Shuling Zhao, Hengjun
Heftet / 2018 / Engelsk

Product details

ISBN
9783319836386
Published
2018-06-29
Publisher
Springer International Publishing AG
Height
235 mm
Width
155 mm
Age
Research, P, 06
Language
Product language
Engelsk
Format
Product format
Heftet
Number of pages
258

Author
Zhan Naijun
Wang, Shuling
Zhao, Hengjun

Biographical note

Dr. Naijun Zhan is a research professor at State Key Lab. of Computer Science, Institute of Software, Chinese Academy of Sciences. He obtained PhD in computer science from Institute of Software, Chinese Academy of Sciences in 2000, and Ms.c in computer science and Bs.c in mathematical logic both from Nanjing University respectively in 1996 and in 1993. Prior to join Institute of Software, Chinese Academy of Sciences, he worked at Faculty of Mathematics and Informatics, University of Mannheim, Germany from 2001 to 2004.

Formal Verification of Simulink/Stateflow Diagrams A Deductive Approach

Zhan Naijun Wang, Shuling Zhao, Hengjun
Heftet / 2018 / Engelsk
Zhan Naijun Wang, Shuling Zhao, Hengjun
Heftet / 2018 / Engelsk
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“The book is an enjoyable reading and provides a thorough overview of the verification of embedded systems using Simulink and Stateflow as advertised by the title. The book provides the mathematical foundations as well as real-world applications of the presented approaches and can easily be appreciated by most graduates of computer science.” (Andreas Maletti, zbMath 1412.68006, 2019)

This book presents a state-of-the-art technique for formal verification of continuous-time Simulink/Stateflow diagrams, featuring an expressive hybrid system modelling language, a powerful specification logic and deduction-based verification approach, and some impressive, realistic case studies.  Readers will learn the HCSP/HHL-based deductive method and the use of corresponding tools for formal verification of Simulink/Stateflow diagrams. They will also gain some basic ideas about fundamental elements of formal methods such as formal syntax and semantics, and especially the common techniques applied in formal modelling and verification of hybrid systems. By investigating the successful case studies, readers will realize how to apply the pure theory and techniques to real applications, and hopefully will be inspired to start to use the proposed approach, or even develop their own formal methods in their future work.
Read more
This book presents a state-of-the-art technique for formal verification of continuous-time Simulink/Stateflow diagrams, featuring an expressive hybrid system modelling language, a powerful specification logic and deduction-based verification approach, and some impressive, realistic case studies.
Read more
1 Introduction.- 2 Preliminaries.- 3 Unifying Theories of Programming.- 4 Simulink.- 5 Stateflow and Its Combination with Simulink.- 6 Hybrid CSP.- 7 Hybrid Hoare Logic.- 8 The HHL Prover.- 9 Invariant Generation.- 10 Translating Simulink Diagrams into HCSP.- 11 Translating Simulink/Stateflow Diagrams into HCSP.- 12 From HCSP to Simulink.- 13 MARS A Toolkit for Modelling, Analysis and Verification of Hybrid Systems.- 14 Case Studies.
Read more
This book presents a state-of-the-art technique for formal verification of continuous-time Simulink/Stateflow diagrams, featuring an expressive hybrid system modelling language, a powerful specification logic and deduction-based verification approach, and some impressive, realistic case studies.  Readers will learn the HCSP/HHL-based deductive method and the use of corresponding tools for formal verification of Simulink/Stateflow diagrams. They will also gain some basic ideas about fundamental elements of formal methods such as formal syntax and semantics, and especially the common techniques applied in formal modelling and verification of hybrid systems. By investigating the successful case studies, readers will realize how to apply the pure theory and techniques to real applications, and hopefully will be inspired to start to use the proposed approach, or even develop their own formal methods in their future work.
Read more
Provides development of the method, from theories to implementations, and then to applications Covers a broad range of topics, both theoretical and practical, including hybrid systems, deductive verification, Duration Calculus, dynamical systems, computer algebra, Simulink/Stateflow, Isabelle theorem prover, etc. Uses "hands-on" presentation of implementations and case studies from real industrial systems Includes supplementary material: sn.pub/extras
Read more

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“The book is an enjoyable reading and provides a thorough overview of the verification of embedded systems using Simulink and Stateflow as advertised by the title. The book provides the mathematical foundations as well as real-world applications of the presented approaches and can easily be appreciated by most graduates of computer science.” (Andreas Maletti, zbMath 1412.68006, 2019)

This book presents a state-of-the-art technique for formal verification of continuous-time Simulink/Stateflow diagrams, featuring an expressive hybrid system modelling language, a powerful specification logic and deduction-based verification approach, and some impressive, realistic case studies.  Readers will learn the HCSP/HHL-based deductive method and the use of corresponding tools for formal verification of Simulink/Stateflow diagrams. They will also gain some basic ideas about fundamental elements of formal methods such as formal syntax and semantics, and especially the common techniques applied in formal modelling and verification of hybrid systems. By investigating the successful case studies, readers will realize how to apply the pure theory and techniques to real applications, and hopefully will be inspired to start to use the proposed approach, or even develop their own formal methods in their future work.
Read more
This book presents a state-of-the-art technique for formal verification of continuous-time Simulink/Stateflow diagrams, featuring an expressive hybrid system modelling language, a powerful specification logic and deduction-based verification approach, and some impressive, realistic case studies.
Read more
1 Introduction.- 2 Preliminaries.- 3 Unifying Theories of Programming.- 4 Simulink.- 5 Stateflow and Its Combination with Simulink.- 6 Hybrid CSP.- 7 Hybrid Hoare Logic.- 8 The HHL Prover.- 9 Invariant Generation.- 10 Translating Simulink Diagrams into HCSP.- 11 Translating Simulink/Stateflow Diagrams into HCSP.- 12 From HCSP to Simulink.- 13 MARS A Toolkit for Modelling, Analysis and Verification of Hybrid Systems.- 14 Case Studies.
Read more
This book presents a state-of-the-art technique for formal verification of continuous-time Simulink/Stateflow diagrams, featuring an expressive hybrid system modelling language, a powerful specification logic and deduction-based verification approach, and some impressive, realistic case studies.  Readers will learn the HCSP/HHL-based deductive method and the use of corresponding tools for formal verification of Simulink/Stateflow diagrams. They will also gain some basic ideas about fundamental elements of formal methods such as formal syntax and semantics, and especially the common techniques applied in formal modelling and verification of hybrid systems. By investigating the successful case studies, readers will realize how to apply the pure theory and techniques to real applications, and hopefully will be inspired to start to use the proposed approach, or even develop their own formal methods in their future work.
Read more
Provides development of the method, from theories to implementations, and then to applications Covers a broad range of topics, both theoretical and practical, including hybrid systems, deductive verification, Duration Calculus, dynamical systems, computer algebra, Simulink/Stateflow, Isabelle theorem prover, etc. Uses "hands-on" presentation of implementations and case studies from real industrial systems Includes supplementary material: sn.pub/extras
Read more

Product details

ISBN
9783319836386
Published
2018-06-29
Publisher
Springer International Publishing AG
Height
235 mm
Width
155 mm
Age
Research, P, 06
Language
Product language
Engelsk
Format
Product format
Heftet
Number of pages
258

Author
Zhan Naijun
Wang, Shuling
Zhao, Hengjun

Biographical note

Dr. Naijun Zhan is a research professor at State Key Lab. of Computer Science, Institute of Software, Chinese Academy of Sciences. He obtained PhD in computer science from Institute of Software, Chinese Academy of Sciences in 2000, and Ms.c in computer science and Bs.c in mathematical logic both from Nanjing University respectively in 1996 and in 1993. Prior to join Institute of Software, Chinese Academy of Sciences, he worked at Faculty of Mathematics and Informatics, University of Mannheim, Germany from 2001 to 2004.

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