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Distributed sensor systems : practice and applications / / Habib F. Rashvand, Jose M. Alcaraz Calero
| Distributed sensor systems : practice and applications / / Habib F. Rashvand, Jose M. Alcaraz Calero |
| Autore | Rashvand Habib F. |
| Edizione | [1st edition] |
| Pubbl/distr/stampa | Chichester, West Sussex : , : Wiley, , c2012 |
| Descrizione fisica | 1 online resource (379 p.) |
| Disciplina | 681/.2 |
| Altri autori (Persone) | Alcaraz CaleroJose M |
| Soggetto topico |
Sensor networks - Design and construction
Sensor networks - Industrial applications |
| ISBN |
1-119-94198-9
1-280-58909-4 9786613618924 1-119-94135-0 1-119-94134-2 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
List of Figures xi -- List of Tables xxi -- Preface xxiii -- Acknowledgements xxvii -- List of Abbreviations xxix -- 1 Distributed Sensors 1 -- 1.1 Primary Objectives 1 -- 1.1.1 User-Based Category 2 -- 1.1.2 Sector-Based Category 5 -- 1.1.3 Primary Objectives 5 -- 1.2 Historical Development 8 -- 1.2.1 Sensing 8 -- 1.2.2 Historical Sensor Generations 8 -- 1.3 Trends and Technology 10 -- 1.3.1 Market Development Trends 10 -- 1.3.2 Technological Developments 12 -- 1.4 Distributed Intelligence 15 -- 1.4.1 Innovation 16 -- 1.4.2 Dis-Invention 19 -- 1.4.3 Intelligent Agent 19 -- 1.4.4 Deployment Factor 20 -- 1.4.5 Overlay Network 21 -- 1.4.6 Deployment Algorithm 21 -- 1.5 Classifying Application Areas 25 -- 1.5.1 Domain-Based Classification 26 -- 1.5.2 Mobility-Based Classification 26 -- 1.5.3 Intelligence-Based Classification 27 -- 2 Smart Sensing Devices 31 -- 2.1 Specification and Classification 31 -- 2.2 Elementary Sensing Circuits and Devices 36 -- 2.2.1 Elementary Electrical Sensors 37 -- 2.2.2 Low Energy Integration 39 -- 2.3 Actuator Interface Structures 41 -- 2.4 Physical Phenomena Sensing Devices 45 -- 2.4.1 Optical Sensors 45 -- 2.4.2 Image Sensing 46 -- 2.5 Biological and Chemical Phenomena Sensing Devices 48 -- 2.6 Other Sensors and Actuators 54 -- 3 Smart Sensing Architectures 59 -- 3.1 Smart Sensor Nodes 60 -- 3.1.1 Hardware 62 -- 3.1.2 Software 62 -- 3.2 Embedded Operating Systems 67 -- 3.3 Network Formation 70 -- 3.3.1 Node Placement 76 -- 3.4 Networking Protocols 77 -- 3.4.1 Location-Based Protocols 79 -- 3.4.2 Data-Centric Protocols 83 -- 3.4.3 Hierarchical Routing 86 -- 3.4.4 Mobility-Based Routing Protocols 90 -- 3.4.5 Other Routing Protocols 93 -- 3.5 Cross-Layer Optimisation 95 -- 3.6 Inference and Aggregation 99 -- 3.7 Case Study: Smart Camera Networks 103 -- 3.8 Case Study: Collaborative Beamforming 107 -- 4 Monitoring Well Being 115 -- 4.1 Measuring Health 116 -- 4.2 Managing Chronic Diseases 125 -- 4.3 Case Study: Smart Shirts 132 -- 4.4 Case Study: Geriatric Care 136.
4.5 Case Study: Outpatient Care 141 -- 5 Clinical Applications 149 -- 5.1 Surgical Applications 150 -- 5.2 Dental Applications 161 -- 5.3 Scalp Applications 165 -- 5.4 Post-Operative Applications 171 -- 5.5 Emergency Case Studies 181 -- 6 Smart Home, Smart Office 189 -- 6.1 Application Requirements 190 -- 6.2 Energy and Resource Optimisation 198 -- 6.3 Smart Home Case Studies 203 -- 6.4 Smart Office Case Studies 212 -- 7 Public Safety Applications 221 -- 7.1 Monitoring Airborne Toxins 223 -- 7.2 Monitoring Forest Fires 228 -- 7.3 Monitoring Structural Health 233 -- 7.4 Monitoring Traffic 242 -- 7.5 Case Study: Sink Location 250 -- 7.6 Case Study: Congestion Avoidance 254 -- 7.7 Case Study: Target Tracking and Surveillance 257 -- 8 Geographical Applications 261 -- 8.1 Farming Industry 261 -- 8.2 Mining Industry 270 -- 8.3 Transportation 274 -- 8.4 Remote Sensing and Imaging 279 -- 8.5 Earth Resources Observation 282 -- 8.6 Underwater Sensing 287 -- Appendix A Further Details on Potential Devices and Systems 293 -- A.1 Accelerometers 293 -- A.2 Equipment 295 -- A.2.1 Tomography 296 -- A.2.2 Gadgets 300 -- A.3 Smart Sensors Devices 302 -- A.3.1 Mica2 and Mica2Dot 302 -- A.3.2 MicaZ 307 -- A.3.3 Telos and TMote Sky 308 -- A.3.4 Fleck3 and FleckNano 310 -- A.3.5 3Mate! 312 -- A.3.6 IMote 2 312 -- A.3.7 System-on-Chip CC2510 313 -- A.3.8 System-on-Chip CC2530 314 -- A.4 Networks and Protocols 315 -- A.4.1 ZigBee 315 -- A.4.2 RFID and Wireless Sensor Integration 318 -- A.4.3 Wireless Sensors for Industrial Environments 319 -- A.5 Systems 321 -- References 325 -- Index 337. |
| Record Nr. | UNINA-9910141347803321 |
Rashvand Habib F.
|
||
| Chichester, West Sussex : , : Wiley, , c2012 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Distributed sensor systems : practice and applications / / Habib F. Rashvand, Jose M. Alcaraz Calero
| Distributed sensor systems : practice and applications / / Habib F. Rashvand, Jose M. Alcaraz Calero |
| Autore | Rashvand Habib F. |
| Edizione | [1st edition] |
| Pubbl/distr/stampa | Chichester, West Sussex : , : Wiley, , c2012 |
| Descrizione fisica | 1 online resource (379 p.) |
| Disciplina | 681/.2 |
| Altri autori (Persone) | Alcaraz CaleroJose M |
| Soggetto topico |
Sensor networks - Design and construction
Sensor networks - Industrial applications |
| ISBN |
1-119-94198-9
1-280-58909-4 9786613618924 1-119-94135-0 1-119-94134-2 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
List of Figures xi -- List of Tables xxi -- Preface xxiii -- Acknowledgements xxvii -- List of Abbreviations xxix -- 1 Distributed Sensors 1 -- 1.1 Primary Objectives 1 -- 1.1.1 User-Based Category 2 -- 1.1.2 Sector-Based Category 5 -- 1.1.3 Primary Objectives 5 -- 1.2 Historical Development 8 -- 1.2.1 Sensing 8 -- 1.2.2 Historical Sensor Generations 8 -- 1.3 Trends and Technology 10 -- 1.3.1 Market Development Trends 10 -- 1.3.2 Technological Developments 12 -- 1.4 Distributed Intelligence 15 -- 1.4.1 Innovation 16 -- 1.4.2 Dis-Invention 19 -- 1.4.3 Intelligent Agent 19 -- 1.4.4 Deployment Factor 20 -- 1.4.5 Overlay Network 21 -- 1.4.6 Deployment Algorithm 21 -- 1.5 Classifying Application Areas 25 -- 1.5.1 Domain-Based Classification 26 -- 1.5.2 Mobility-Based Classification 26 -- 1.5.3 Intelligence-Based Classification 27 -- 2 Smart Sensing Devices 31 -- 2.1 Specification and Classification 31 -- 2.2 Elementary Sensing Circuits and Devices 36 -- 2.2.1 Elementary Electrical Sensors 37 -- 2.2.2 Low Energy Integration 39 -- 2.3 Actuator Interface Structures 41 -- 2.4 Physical Phenomena Sensing Devices 45 -- 2.4.1 Optical Sensors 45 -- 2.4.2 Image Sensing 46 -- 2.5 Biological and Chemical Phenomena Sensing Devices 48 -- 2.6 Other Sensors and Actuators 54 -- 3 Smart Sensing Architectures 59 -- 3.1 Smart Sensor Nodes 60 -- 3.1.1 Hardware 62 -- 3.1.2 Software 62 -- 3.2 Embedded Operating Systems 67 -- 3.3 Network Formation 70 -- 3.3.1 Node Placement 76 -- 3.4 Networking Protocols 77 -- 3.4.1 Location-Based Protocols 79 -- 3.4.2 Data-Centric Protocols 83 -- 3.4.3 Hierarchical Routing 86 -- 3.4.4 Mobility-Based Routing Protocols 90 -- 3.4.5 Other Routing Protocols 93 -- 3.5 Cross-Layer Optimisation 95 -- 3.6 Inference and Aggregation 99 -- 3.7 Case Study: Smart Camera Networks 103 -- 3.8 Case Study: Collaborative Beamforming 107 -- 4 Monitoring Well Being 115 -- 4.1 Measuring Health 116 -- 4.2 Managing Chronic Diseases 125 -- 4.3 Case Study: Smart Shirts 132 -- 4.4 Case Study: Geriatric Care 136.
4.5 Case Study: Outpatient Care 141 -- 5 Clinical Applications 149 -- 5.1 Surgical Applications 150 -- 5.2 Dental Applications 161 -- 5.3 Scalp Applications 165 -- 5.4 Post-Operative Applications 171 -- 5.5 Emergency Case Studies 181 -- 6 Smart Home, Smart Office 189 -- 6.1 Application Requirements 190 -- 6.2 Energy and Resource Optimisation 198 -- 6.3 Smart Home Case Studies 203 -- 6.4 Smart Office Case Studies 212 -- 7 Public Safety Applications 221 -- 7.1 Monitoring Airborne Toxins 223 -- 7.2 Monitoring Forest Fires 228 -- 7.3 Monitoring Structural Health 233 -- 7.4 Monitoring Traffic 242 -- 7.5 Case Study: Sink Location 250 -- 7.6 Case Study: Congestion Avoidance 254 -- 7.7 Case Study: Target Tracking and Surveillance 257 -- 8 Geographical Applications 261 -- 8.1 Farming Industry 261 -- 8.2 Mining Industry 270 -- 8.3 Transportation 274 -- 8.4 Remote Sensing and Imaging 279 -- 8.5 Earth Resources Observation 282 -- 8.6 Underwater Sensing 287 -- Appendix A Further Details on Potential Devices and Systems 293 -- A.1 Accelerometers 293 -- A.2 Equipment 295 -- A.2.1 Tomography 296 -- A.2.2 Gadgets 300 -- A.3 Smart Sensors Devices 302 -- A.3.1 Mica2 and Mica2Dot 302 -- A.3.2 MicaZ 307 -- A.3.3 Telos and TMote Sky 308 -- A.3.4 Fleck3 and FleckNano 310 -- A.3.5 3Mate! 312 -- A.3.6 IMote 2 312 -- A.3.7 System-on-Chip CC2510 313 -- A.3.8 System-on-Chip CC2530 314 -- A.4 Networks and Protocols 315 -- A.4.1 ZigBee 315 -- A.4.2 RFID and Wireless Sensor Integration 318 -- A.4.3 Wireless Sensors for Industrial Environments 319 -- A.5 Systems 321 -- References 325 -- Index 337. |
| Record Nr. | UNINA-9910825297003321 |
|
Rashvand Habib F.
|
||
| Chichester, West Sussex : , : Wiley, , c2012 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||