Wearable systems and body sensor networks : from modeling to implementation /: from modeling to implementation. (2015)
- Record Type:
- Book
- Title:
- Wearable systems and body sensor networks : from modeling to implementation /: from modeling to implementation. (2015)
- Main Title:
- Wearable systems and body sensor networks : from modeling to implementation
- Further Information:
- Note: Giancarlo Fortino, Raffaele Gravina, Stefano Galzarano.
- Authors:
- Fortino, Giancarlo, 1971-
Gravina, Raffaele
Galzarano, Stefano - Contents:
- Preface Acknowledgements Chapter 1: Body Sensor Networks 1.1 Introduction 1.2 Background 1.3 Typical m-Health system architecture 1.4 Hardware architecture of a sensor node 1.5 Communication Medium 1.6 Power consumption considerations 1.7 Communication standards 1.8 Network Topologies 1.9 Commercial sensor node platforms 1.10 Bio-physiological signals and sensors 1.11 BSN Application domains 1.12 Summary 1.13 References Chapter 2: BSN Programming Frameworks 2.1 Introduction 2.2 Developing BSN applications 2.2.1 Application- and platform-specific programming 2.2.2 Automatic code generation 2.2.3 Middleware-based programming 2.2.4 Programming approaches comparison 2.3 Programming abstractions 2.4 Requirements for BSN framework 2.5 BSN programming frameworks 2.5.1 Titan 2.5.2 CodeBlue 2.5.3 RehabSPOT 2.5.4 SPINE 2.5.5 SPINE2 2.5.6 C-SPINE 2.5.7 MAPS 2.5.8 DexterNet 2.6 Summary 2.7 References Chapter 3: Signal Processing In-Node Environment 3.1 Introduction 3.2 Background 3.3 Motivations and Challenges 3.4 The SPINE Framework 3.4.1 Architecture 3.4.2 Programming perspective 3.4.3 Optional SPINE modules 3.4.4 High-Level Data Processing 3.4.5 Multi-Platform Support 3.5 Summary 3.6 References Chapter 4: Task-oriented Programming in BSNs 4.1 Introduction 4.2 Background 4.3 Motivations and Challenges 4.3.1 Need for a platform-independent middleware 4.3.2 Challenges in designing task-oriented framework 4.4 SPINE2 overview 4.5 Task-oriented programming in SPINE2 4.6 SPINE2 node-sidePreface Acknowledgements Chapter 1: Body Sensor Networks 1.1 Introduction 1.2 Background 1.3 Typical m-Health system architecture 1.4 Hardware architecture of a sensor node 1.5 Communication Medium 1.6 Power consumption considerations 1.7 Communication standards 1.8 Network Topologies 1.9 Commercial sensor node platforms 1.10 Bio-physiological signals and sensors 1.11 BSN Application domains 1.12 Summary 1.13 References Chapter 2: BSN Programming Frameworks 2.1 Introduction 2.2 Developing BSN applications 2.2.1 Application- and platform-specific programming 2.2.2 Automatic code generation 2.2.3 Middleware-based programming 2.2.4 Programming approaches comparison 2.3 Programming abstractions 2.4 Requirements for BSN framework 2.5 BSN programming frameworks 2.5.1 Titan 2.5.2 CodeBlue 2.5.3 RehabSPOT 2.5.4 SPINE 2.5.5 SPINE2 2.5.6 C-SPINE 2.5.7 MAPS 2.5.8 DexterNet 2.6 Summary 2.7 References Chapter 3: Signal Processing In-Node Environment 3.1 Introduction 3.2 Background 3.3 Motivations and Challenges 3.4 The SPINE Framework 3.4.1 Architecture 3.4.2 Programming perspective 3.4.3 Optional SPINE modules 3.4.4 High-Level Data Processing 3.4.5 Multi-Platform Support 3.5 Summary 3.6 References Chapter 4: Task-oriented Programming in BSNs 4.1 Introduction 4.2 Background 4.3 Motivations and Challenges 4.3.1 Need for a platform-independent middleware 4.3.2 Challenges in designing task-oriented framework 4.4 SPINE2 overview 4.5 Task-oriented programming in SPINE2 4.6 SPINE2 node-side middleware 4.7 SPINE2 Coordinator 4.8 SPINE2 communication protocol 4.9 Developing application in SPINE2 4.10 Summary 4.11 References Chapter 5: Autonomic Body Sensor Networks 5.1 Introduction 5.2 Background 5.3 Motivations and Challenges 5.4 State-of-the-art 5.5 SPINE-*: task-based autonomic architecture 5.6 Autonomic physical activity recognition 5.7 Summary 5.8 References Chapter 6: Agent-oriented Body Sensor Networks 6.1 Introduction 6.2 Background 6.2.1 Agent-oriented Computing and Wireless Sensor Networks 6.2.2 Mobile Agent Platform for Sun SPOT (MAPS) 6.3 Motivations and Challenges 6.4 State-of-the-art: Description and Comparison 6.5 Agent-based Modeling and Implementation of BSNs 6.6 Engineering Agent-based BSN Applications: a Case Study 6.7 Summary 6.8 References Chapter 7: Collaborative Body Sensor Networks 7.1 Introduction 7.2 Background 7.3 Motivations and Challenges 7.4 State-of-the-art 7.5 A reference architecture for Collaborative BSN 7.6 C-SPINE: a CBSN architecture 7.6.1 Inter-BSN Communication 7.6.2 BSN Proximity Detection 7.6.3 BSN Service Discovery 7.6.4 BSN Service Selection & Activation 7.7 Summary 7.8 References Chapter 8: Integration of Body Sensor Networks and Building Networks 8.1 Introduction 8.2 Background 8.2.1 Building Sensor Networks and Systems 8.2.2 Building Management Framework 8.3 Motivations and Challenges 8.4 Integration Layers 8.5 State-of-the-art: Description and Comparison 8.6 An Agent-oriented Integration Gateway 8.7 Application Scenarios 8.8 Summary 8.9 References Chapter 9: Integration of Wearable and Cloud Computing 9.1 Introduction 9.2 Background 9.2.1 Cloud Computing 9.2.2 Architectures for Sensor Stream Management 9.3 Motivations and Challenges 9.3.1 BSN Challenges 9.3.2 BSN/Cloud computing Integration Challenges 9.4 Reference Architecture for Cloud-Assisted Body Sensor Networks 9.4.1 Sensor Data Collection 9.4.2 Sensor Data Management 9.4.3 Scalable Processing Framework 9.4.4 Persistent Storage 9.4.5 Decision-Making Process 9.4.6 Open Standards and Advanced Visualization 9.4.7 Security 9.5 State-of-the-art: Description and Comparison 9.5.1 Integration of WSNs and Cloud computing 9.5.2 Integration of BSNs and Cloud computing 9.5.3 A comparison 9.6 BodyCloud: A Cloud-based Platform for Community BSN Applications 9.7 Engineering BodyCloud Applications 9.7.1 ECGaaS: Cardiac Monitoring 9.7.2 FEARaaS: Basic Fear Detection 9.7.3 REHABaaS: Remote Rehabilitation 9.7.4 ACTIVITYaaS: Community Activity Monitoring 9.8 Summary 9.9 References Chapter 10: Development methodology for BSN systems 10.1 Introduction 10.2 Background 10.3 Motivations and Challenges 10.4 SPINE-based Design Methodology 10.4.1 A Pattern-driven Application-level Design 10.4.2 System Parameters 10.4.3 Process schema 10.5 Summary 10.6 References Chapter 11: SPINE-based Body Sensor Networks Applications 11.1 Introduction 11.2 Background 11.3 Physical Activity Recognition 11.3.1 Related Work 11.3.2 A SPINE-Based Activity Recognition system 11.4 Step Counter 11.4.1 Related Work 11.4.2 A SPINE-based Step Counter 11.5 Emotion Recognition … (more)
- Edition:
- 1st
- Publisher Details:
- Hoboken : John Wiley & Sons
- Publication Date:
- 2015
- Extent:
- 1 online resource
- Subjects:
- 004.167
Wearable computers
Mobile computing
Wireless communication systems - Languages:
- English
- ISBNs:
- 9781119078838
- Related ISBNs:
- 9781119078821
- Notes:
- Note: Description based on CIP data; resource not viewed.
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- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
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- Physical Locations:
- British Library HMNTS - ELD.DS.276972
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