NU-biblioteket : Body Area Networks Safety, Security, and Sustainability

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Body Area Networks Safety, Security, and Sustainability

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Huvuduppslag - Personnamn	Gupta, Sandeep K. S.
Titel och upphov	Body Area Networks Safety, Security, and Sustainability
Antal i kö: NU (US)	0 (0)
Utgivning, distribution, etc.	Cambridge University Press New York 2013 ©2013
DDC klassifikationskod (Dewey Decimal Classification)	610.285
Fysisk beskrivning	1 online resource (161 pages)
Anmärkning: Innehåll	Cover -- Contents -- Foreword -- Preface -- Acknowledgments -- 1 Introduction -- 1.1 Pervasive healthcare -- 1.2 Monitoring technologies -- 1.3 Overview of the book -- 1.4 Questions -- 2 Body area networks -- 2.1 Architecture -- 2.1.1 Hardware -- 2.1.2 Network topology -- 2.1.3 Communication technology -- 2.1.4 Software -- 2.1.5 Deployment -- 2.1.6 The physical environment -- 2.1.7 Energy source -- 2.2 Applications -- 2.2.1 Physiological monitoring -- 2.2.2 The infusion-pump control system -- 2.3 Middleware for a BAN-based pervasive health-monitoring system -- 2.4 Questions -- 3 BAN models and requirements -- 3.1 Principal requirements -- 3.1.1 Safety -- 3.1.2 Security -- 3.1.3 Sustainability -- 3.2 The cyber-physical nature of BANs -- 3.3 Regulatory issues -- 3.3.1 Medical-device regulation in the USA -- 3.3.2 Medical-device regulation in the EU -- 3.3.3 Medical-device regulation in Asia -- 4 Safety -- 4.1 Safety approaches -- 4.1.1 Perspectives of BAN safety -- 4.1.2 Ensuring BAN safety -- 4.2 Model-based engineering of BANs -- 4.2.1 Safety-requirements analysis -- 4.2.2 Model generation -- 4.2.3 Analysis of safety -- 4.3 Modeling cyber-physical systems -- 4.4 Example: BAND-AiDe - BAN Design and Analysis Tool -- 4.4.1 The BAND-AiDe modeling framework -- 4.4.2 The BAND-AiDe analyzer -- 4.4.3 Implementation -- 4.5 Demonstrating design and analysis with BAND-AiDe -- 4.5.1 Safety verification of a single wearable medical device -- 4.5.2 Safety verification of a network of devices -- 4.6 Formal models for BAN safety -- 4.7 Future research problems -- 4.8 Questions -- 5 Security -- 5.1 The need for information security in BANs -- 5.2 Securing a BAN as a cyber-physical system -- 5.2.1 Securing BAN components -- 5.2.2 Challenges for CPS-Sec solutions -- 5.2.3 CPS-Sec solutions for BANs -- 5.3 Traditional security solutions for BANs 5.3.1 Application of traditional approaches to key distribution -- 5.4 Physiological-signal-based key agreement (PSKA) -- 5.4.1 Physiological signals: issues and properties -- 5.4.2 PSKA protocol execution -- 5.4.3 Security of PSKA -- 5.4.4 PSKA prototype implementation -- 5.5 Summary and future research problems -- 5.6 Questions -- 6 Sustainability -- 6.1 The energy perspective -- 6.1.1 Energy storage -- 6.1.2 Reducing the energy requirement -- 6.1.3 Scavenging energy from different sources -- 6.2 The equipment-recycling perspective -- 6.3 Ensuring sustainability -- 6.4 Sustainable BAN software-design methodology -- 6.4.1 The physical plane -- 6.4.2 BAN application -- 6.4.3 The management plane -- 6.5 Power profiling -- 6.6 Architectural modeling -- 6.7 Analysis and design for sustainability -- 6.7.1 Sustainability analysis -- 6.7.2 Case-study design -- 6.8 Future research problems -- 6.9 Questions -- 7 Implementation of BANs -- 7.1 Implementation -- 7.1.1 The computation model of a sensor node -- 7.1.2 The computation model of a base station -- 7.2 Programming paradigms -- 7.2.1 Programming a sensor -- 7.2.2 Programming a base station -- 7.3 Common implementation issues -- 7.3.1 Avoid floating-point operations -- 7.3.2 Variable reuse and concurrency conflicts -- 7.3.3 Storage management -- 7.3.4 Distinction between tasks and event handlers -- 7.3.5 Real-time considerations -- 7.3.6 Debugging strategies -- 7.4 Diverse sensor platforms -- 7.5 Choosing the best platform -- 7.6 Automatic code generation -- 7.7 Data repositories -- 7.8 Questions -- 8 Epilogue -- Glossary -- Appendix: Publication venues, academic research groups, and funding agencies -- References -- Index
Anmärkning: Innehållsbeskrivning, sammanfattning	Explores issues involved in designing safe, secure and sustainable BANs from a cyber-physical systems perspective, for researchers and graduate students.
Ämnesordsbiuppslag - Term	Body area networks (Electronics).
Indexterm - Genre/Form	Electronic books.
Biuppslag - Personnamn	Mukherjee, Tridib. Venkatasubramanian, Krishna Kumar.
Länkfält - Annat medium	Print version: Gupta, Sandeep K. S. Body Area Networks New York : Cambridge University Press,c2013 ISBN 9781107021020
ISBN	9781107347915

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*24510$aBody Area Networks$bSafety, Security, and Sustainability
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*505 0$aCover -- Contents -- Foreword -- Preface -- Acknowledgments -- 1 Introduction -- 1.1 Pervasive healthcare -- 1.2 Monitoring technologies -- 1.3 Overview of the book -- 1.4 Questions -- 2 Body area networks -- 2.1 Architecture -- 2.1.1 Hardware -- 2.1.2 Network topology -- 2.1.3 Communication technology -- 2.1.4 Software -- 2.1.5 Deployment -- 2.1.6 The physical environment -- 2.1.7 Energy source -- 2.2 Applications -- 2.2.1 Physiological monitoring -- 2.2.2 The infusion-pump control system -- 2.3 Middleware for a BAN-based pervasive health-monitoring system -- 2.4 Questions -- 3 BAN models and requirements -- 3.1 Principal requirements -- 3.1.1 Safety -- 3.1.2 Security -- 3.1.3 Sustainability -- 3.2 The cyber-physical nature of BANs -- 3.3 Regulatory issues -- 3.3.1 Medical-device regulation in the USA -- 3.3.2 Medical-device regulation in the EU -- 3.3.3 Medical-device regulation in Asia -- 4 Safety -- 4.1 Safety approaches -- 4.1.1 Perspectives of BAN safety -- 4.1.2 Ensuring BAN safety -- 4.2 Model-based engineering of BANs -- 4.2.1 Safety-requirements analysis -- 4.2.2 Model generation -- 4.2.3 Analysis of safety -- 4.3 Modeling cyber-physical systems -- 4.4 Example: BAND-AiDe - BAN Design and Analysis Tool -- 4.4.1 The BAND-AiDe modeling framework -- 4.4.2 The BAND-AiDe analyzer -- 4.4.3 Implementation -- 4.5 Demonstrating design and analysis with BAND-AiDe -- 4.5.1 Safety verification of a single wearable medical device -- 4.5.2 Safety verification of a network of devices -- 4.6 Formal models for BAN safety -- 4.7 Future research problems -- 4.8 Questions -- 5 Security -- 5.1 The need for information security in BANs -- 5.2 Securing a BAN as a cyber-physical system -- 5.2.1 Securing BAN components -- 5.2.2 Challenges for CPS-Sec solutions -- 5.2.3 CPS-Sec solutions for BANs -- 5.3 Traditional security solutions for BANs
*505  $a5.3.1 Application of traditional approaches to  key distribution -- 5.4 Physiological-signal-based key agreement (PSKA) -- 5.4.1 Physiological signals: issues and properties -- 5.4.2 PSKA protocol execution -- 5.4.3 Security of PSKA -- 5.4.4 PSKA prototype implementation -- 5.5 Summary and future research problems -- 5.6 Questions -- 6 Sustainability -- 6.1 The energy perspective -- 6.1.1 Energy storage -- 6.1.2 Reducing the energy requirement -- 6.1.3 Scavenging energy from different sources -- 6.2 The equipment-recycling perspective -- 6.3 Ensuring sustainability -- 6.4 Sustainable BAN software-design methodology -- 6.4.1 The physical plane -- 6.4.2 BAN application -- 6.4.3 The management plane -- 6.5 Power profiling -- 6.6 Architectural modeling -- 6.7 Analysis and design for sustainability -- 6.7.1 Sustainability analysis -- 6.7.2 Case-study design -- 6.8 Future research problems -- 6.9 Questions -- 7 Implementation of BANs -- 7.1 Implementation -- 7.1.1 The computation model of a sensor node -- 7.1.2 The computation model of a base station -- 7.2 Programming paradigms -- 7.2.1 Programming a sensor -- 7.2.2 Programming a base station -- 7.3 Common implementation issues -- 7.3.1 Avoid floating-point operations -- 7.3.2 Variable reuse and concurrency conflicts -- 7.3.3 Storage management -- 7.3.4 Distinction between tasks and event handlers -- 7.3.5 Real-time considerations -- 7.3.6 Debugging strategies -- 7.4 Diverse sensor platforms -- 7.5 Choosing the best platform -- 7.6 Automatic code generation -- 7.7 Data repositories -- 7.8 Questions -- 8 Epilogue -- Glossary -- Appendix: Publication venues, academic research groups, and funding agencies -- References -- Index
*520  $aExplores issues involved in designing safe, secure and sustainable BANs from a cyber-physical systems perspective, for researchers and graduate students.
*588  $aDescription based on publisher supplied metadata and other sources.
*588  $aElectronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, YYYY. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.
*650 0$aBody area networks (Electronics).
*655 0$aElectronic books.
*700  $aMukherjee, Tridib.
*700  $aVenkatasubramanian, Krishna Kumar.
*77608$iPrint version:$aGupta, Sandeep K. S.$tBody Area Networks$dNew York : Cambridge University Press,c2013$z9781107021020
*797  $aProQuest (Firm)
*85640$uhttps://ebookcentral.proquest.com/lib/vgregion/detail.action?docID=1139689
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