UML-B Specification for Proven Embedded Systems Design [electronic resource] /

UML-B Specification for Proven Embedded Systems Design [electronic resource] /

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This book presents the perspective of the project on a Paradigm Unifying System Specification Environments for proven Electronic design (PUS SEE) as conceived in the course of the research during 2002 -2003. The initial statement of the research was formulated as follows: The objective of PUSSEE is to introduce the formal proof of system properties throughout a modular system design methodology that integrates sub-systems co-verification with system refinement and reusability of virtual system components. This will be done by combining the UML and B languages to allow the verification of system specifications through the composition of proven sub-systems (in particular interfaces, using the VSIAISLIF standard). The link of B with C, VHDL and SystemC will extend the correct-by-construction design process to lower system-on-chip (SoC) development stages. Prototype tools will be developed for the code generation from UML and B, and existing B verification tools will be extended to support IP reuse, according to the VSI Alliance work. The methodology and tools will be validated through the development of three industrial applications: a wireless mobile terminal-a telecom system-on-chip based on HIPERLANI2 protocol and an anti-collision module for automobiles. The problem was known to be hard and the scope ambitious. But the seventeen chapters that follow, describing the main results obtained demonstrate the success of the research, acknowledged by the European reviewers. They are released to allow the largest audience to learn and take benefit of.

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Main Authors: Bernin, Fredrik. author., Butler, Michael. author., Cansell, Dominique. author., Hallerstede, Stefan. author., Kronlöf, Klaus. author., Krupp, Alexander. author., Lecomte, Thierry. author., Lundell, Michael. author., Lundkvist, Ola. author., Marchetti, Michele. author., Mueller, Wolfgang. author., Oliver, Ian. author., Sabatier, Denis. author., Schattkowsky, Tim. author., Snook, Colin. author., Voros, Nikolaos S. author., Zimmermann, Yann. author., Mermet, Jean. editor., SpringerLink (Online service)
Format: Texto biblioteca
Language:eng
Published: Boston, MA : Springer US : Imprint: Springer, 2004
Subjects:Engineering., Computer system failures., Mathematical models., Complexity, Computational., Engineering design., Electrical engineering., Electronics., Microelectronics., Electrical Engineering., Complexity., Mathematical Modeling and Industrial Mathematics., System Performance and Evaluation., Engineering Design., Electronics and Microelectronics, Instrumentation.,
Online Access:http://dx.doi.org/10.1007/978-1-4020-2867-0
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id KOHA-OAI-TEST:194304
record_format koha
institution COLPOS
collection Koha
country México
countrycode MX
component Bibliográfico
access En linea
En linea
databasecode cat-colpos
tag biblioteca
region America del Norte
libraryname Departamento de documentación y biblioteca de COLPOS
language eng
topic Engineering.
Computer system failures.
Mathematical models.
Complexity, Computational.
Engineering design.
Electrical engineering.
Electronics.
Microelectronics.
Engineering.
Electrical Engineering.
Complexity.
Mathematical Modeling and Industrial Mathematics.
System Performance and Evaluation.
Engineering Design.
Electronics and Microelectronics, Instrumentation.
Engineering.
Computer system failures.
Mathematical models.
Complexity, Computational.
Engineering design.
Electrical engineering.
Electronics.
Microelectronics.
Engineering.
Electrical Engineering.
Complexity.
Mathematical Modeling and Industrial Mathematics.
System Performance and Evaluation.
Engineering Design.
Electronics and Microelectronics, Instrumentation.
spellingShingle Engineering.
Computer system failures.
Mathematical models.
Complexity, Computational.
Engineering design.
Electrical engineering.
Electronics.
Microelectronics.
Engineering.
Electrical Engineering.
Complexity.
Mathematical Modeling and Industrial Mathematics.
System Performance and Evaluation.
Engineering Design.
Electronics and Microelectronics, Instrumentation.
Engineering.
Computer system failures.
Mathematical models.
Complexity, Computational.
Engineering design.
Electrical engineering.
Electronics.
Microelectronics.
Engineering.
Electrical Engineering.
Complexity.
Mathematical Modeling and Industrial Mathematics.
System Performance and Evaluation.
Engineering Design.
Electronics and Microelectronics, Instrumentation.
Bernin, Fredrik. author.
Butler, Michael. author.
Cansell, Dominique. author.
Hallerstede, Stefan. author.
Kronlöf, Klaus. author.
Krupp, Alexander. author.
Lecomte, Thierry. author.
Lundell, Michael. author.
Lundkvist, Ola. author.
Marchetti, Michele. author.
Mueller, Wolfgang. author.
Oliver, Ian. author.
Sabatier, Denis. author.
Schattkowsky, Tim. author.
Snook, Colin. author.
Voros, Nikolaos S. author.
Zimmermann, Yann. author.
Mermet, Jean. editor.
SpringerLink (Online service)
UML-B Specification for Proven Embedded Systems Design [electronic resource] /
description This book presents the perspective of the project on a Paradigm Unifying System Specification Environments for proven Electronic design (PUS SEE) as conceived in the course of the research during 2002 -2003. The initial statement of the research was formulated as follows: The objective of PUSSEE is to introduce the formal proof of system properties throughout a modular system design methodology that integrates sub-systems co-verification with system refinement and reusability of virtual system components. This will be done by combining the UML and B languages to allow the verification of system specifications through the composition of proven sub-systems (in particular interfaces, using the VSIAISLIF standard). The link of B with C, VHDL and SystemC will extend the correct-by-construction design process to lower system-on-chip (SoC) development stages. Prototype tools will be developed for the code generation from UML and B, and existing B verification tools will be extended to support IP reuse, according to the VSI Alliance work. The methodology and tools will be validated through the development of three industrial applications: a wireless mobile terminal-a telecom system-on-chip based on HIPERLANI2 protocol and an anti-collision module for automobiles. The problem was known to be hard and the scope ambitious. But the seventeen chapters that follow, describing the main results obtained demonstrate the success of the research, acknowledged by the European reviewers. They are released to allow the largest audience to learn and take benefit of.
format Texto
topic_facet Engineering.
Computer system failures.
Mathematical models.
Complexity, Computational.
Engineering design.
Electrical engineering.
Electronics.
Microelectronics.
Engineering.
Electrical Engineering.
Complexity.
Mathematical Modeling and Industrial Mathematics.
System Performance and Evaluation.
Engineering Design.
Electronics and Microelectronics, Instrumentation.
author Bernin, Fredrik. author.
Butler, Michael. author.
Cansell, Dominique. author.
Hallerstede, Stefan. author.
Kronlöf, Klaus. author.
Krupp, Alexander. author.
Lecomte, Thierry. author.
Lundell, Michael. author.
Lundkvist, Ola. author.
Marchetti, Michele. author.
Mueller, Wolfgang. author.
Oliver, Ian. author.
Sabatier, Denis. author.
Schattkowsky, Tim. author.
Snook, Colin. author.
Voros, Nikolaos S. author.
Zimmermann, Yann. author.
Mermet, Jean. editor.
SpringerLink (Online service)
author_facet Bernin, Fredrik. author.
Butler, Michael. author.
Cansell, Dominique. author.
Hallerstede, Stefan. author.
Kronlöf, Klaus. author.
Krupp, Alexander. author.
Lecomte, Thierry. author.
Lundell, Michael. author.
Lundkvist, Ola. author.
Marchetti, Michele. author.
Mueller, Wolfgang. author.
Oliver, Ian. author.
Sabatier, Denis. author.
Schattkowsky, Tim. author.
Snook, Colin. author.
Voros, Nikolaos S. author.
Zimmermann, Yann. author.
Mermet, Jean. editor.
SpringerLink (Online service)
author_sort Bernin, Fredrik. author.
title UML-B Specification for Proven Embedded Systems Design [electronic resource] /
title_short UML-B Specification for Proven Embedded Systems Design [electronic resource] /
title_full UML-B Specification for Proven Embedded Systems Design [electronic resource] /
title_fullStr UML-B Specification for Proven Embedded Systems Design [electronic resource] /
title_full_unstemmed UML-B Specification for Proven Embedded Systems Design [electronic resource] /
title_sort uml-b specification for proven embedded systems design [electronic resource] /
publisher Boston, MA : Springer US : Imprint: Springer,
publishDate 2004
url http://dx.doi.org/10.1007/978-1-4020-2867-0
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_version_ 1756266587150614528
spelling KOHA-OAI-TEST:1943042018-07-30T23:19:53ZUML-B Specification for Proven Embedded Systems Design [electronic resource] / Bernin, Fredrik. author. Butler, Michael. author. Cansell, Dominique. author. Hallerstede, Stefan. author. Kronlöf, Klaus. author. Krupp, Alexander. author. Lecomte, Thierry. author. Lundell, Michael. author. Lundkvist, Ola. author. Marchetti, Michele. author. Mueller, Wolfgang. author. Oliver, Ian. author. Sabatier, Denis. author. Schattkowsky, Tim. author. Snook, Colin. author. Voros, Nikolaos S. author. Zimmermann, Yann. author. Mermet, Jean. editor. SpringerLink (Online service) textBoston, MA : Springer US : Imprint: Springer,2004.engThis book presents the perspective of the project on a Paradigm Unifying System Specification Environments for proven Electronic design (PUS SEE) as conceived in the course of the research during 2002 -2003. The initial statement of the research was formulated as follows: The objective of PUSSEE is to introduce the formal proof of system properties throughout a modular system design methodology that integrates sub-systems co-verification with system refinement and reusability of virtual system components. This will be done by combining the UML and B languages to allow the verification of system specifications through the composition of proven sub-systems (in particular interfaces, using the VSIAISLIF standard). The link of B with C, VHDL and SystemC will extend the correct-by-construction design process to lower system-on-chip (SoC) development stages. Prototype tools will be developed for the code generation from UML and B, and existing B verification tools will be extended to support IP reuse, according to the VSI Alliance work. The methodology and tools will be validated through the development of three industrial applications: a wireless mobile terminal-a telecom system-on-chip based on HIPERLANI2 protocol and an anti-collision module for automobiles. The problem was known to be hard and the scope ambitious. But the seventeen chapters that follow, describing the main results obtained demonstrate the success of the research, acknowledged by the European reviewers. They are released to allow the largest audience to learn and take benefit of.1 An Introduction to Formal Methods -- 2 Formally Unified System Specification Environment with UML, B and SystemC -- 3 Embedded System Design Using the PUSSEE Method -- 4 System Level Modelling and Refinement with EventB -- 5 The UML-B Profile for Formal Systems Modelling in UML -- 6 U2B -- 7 BHDL -- 8 Towards a Conceptual Framework for UML to Hardware Description Language Mappings -- 9 Interface-Based Synthesis Refinement in B -- 10 Refinement of Finite State Machines with Complementary Model Checking -- 11 Adaptive Cruise Control Case Study Design Experiment -- 12 Adaptive Cruise Controller Case Study -- 13 Formal Modelling of Electronic Circuits Using Event-B -- 14 The Echo Cancellation Unit Case Study -- 15 Results of the Mobile Design System Experiment -- 16 UML-B Specification and Hardware Implementation of a Hamming Coder/Decoder -- 17 The PUSSEE Method in Practice -- A1 Evaluation Criteria for Embedded System Design Methods.This book presents the perspective of the project on a Paradigm Unifying System Specification Environments for proven Electronic design (PUS SEE) as conceived in the course of the research during 2002 -2003. The initial statement of the research was formulated as follows: The objective of PUSSEE is to introduce the formal proof of system properties throughout a modular system design methodology that integrates sub-systems co-verification with system refinement and reusability of virtual system components. This will be done by combining the UML and B languages to allow the verification of system specifications through the composition of proven sub-systems (in particular interfaces, using the VSIAISLIF standard). The link of B with C, VHDL and SystemC will extend the correct-by-construction design process to lower system-on-chip (SoC) development stages. Prototype tools will be developed for the code generation from UML and B, and existing B verification tools will be extended to support IP reuse, according to the VSI Alliance work. The methodology and tools will be validated through the development of three industrial applications: a wireless mobile terminal-a telecom system-on-chip based on HIPERLANI2 protocol and an anti-collision module for automobiles. The problem was known to be hard and the scope ambitious. But the seventeen chapters that follow, describing the main results obtained demonstrate the success of the research, acknowledged by the European reviewers. They are released to allow the largest audience to learn and take benefit of.Engineering.Computer system failures.Mathematical models.Complexity, Computational.Engineering design.Electrical engineering.Electronics.Microelectronics.Engineering.Electrical Engineering.Complexity.Mathematical Modeling and Industrial Mathematics.System Performance and Evaluation.Engineering Design.Electronics and Microelectronics, Instrumentation.Springer eBookshttp://dx.doi.org/10.1007/978-1-4020-2867-0URN:ISBN:9781402028670

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