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Communicating embedded systems [[electronic resource] ] : network applications / / edited by Francine Krief

London, : ISTE

Materiale a stampa

Lo trovi qui: Univ. Federico II

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Communicating embedded systems [[electronic resource] ] : network applications / / edited by Francine Krief

London, : ISTE

Materiale a stampa

Lo trovi qui: Univ. Federico II

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Communicating embedded systems : network applications / / edited by Francine Krief

London, : ISTE

Materiale a stampa

Lo trovi qui: Univ. Federico II

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Cooperating embedded systems and wireless sensor networks [[electronic resource] /] / edited by Michel Banatre ... [et al.]

London, : ISTE

Materiale a stampa

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Cooperating embedded systems and wireless sensor networks [[electronic resource] /] / edited by Michel Banatre ... [et al.]

London, : ISTE

Materiale a stampa

Lo trovi qui: Univ. Federico II

Opac:

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Cooperating embedded systems and wireless sensor networks / / edited by Michel Banatre ... [et al.]

London, : ISTE

Materiale a stampa

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Electronic books. (2)

Pubbl/distr/stampa	London, : ISTE
Descrizione fisica	1 online resource (348 p.)
Disciplina	621.3815/31 621.381531 621.39
Altri autori (Persone)	KriefFrancine
Collana	ISTE
Soggetto topico	Networks on a chip
Soggetto genere / forma	Electronic books.
ISBN	1-118-55762-X 1-299-31539-9 1-118-61851-3
Classificazione	ST 153
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Cover; Communicating Embedded Systems; Title Page; Copyright Page; Table of Contents; General Introduction; Chapter 1. Introduction to Embedded Systems; 1.1. Introduction; 1.2. Embedded system: a definition; 1.3. Properties of an embedded system; 1.4. The significance of Moore's Law; 1.5. Embedded systems and the system on silicon; 1.6. Embedded systems and communications; 1.7. Embedded systems and security; 1.8. Embedded systems and time constraints; 1.9. Embedded systems and free software; 1.10. Embedded systems and their design; 1.11. An example of multimedia embedded system design 1.12. Conclusion1.13. Bibliography; Chapter 2. Quality-of-Service Routing in Mobile Ad Hoc Networks; 2.1. Introduction; 2.2. Mobile ad hoc networks: concepts, characteristics, challenges; 2.2.1. Concepts and basic principles; 2.2.2. Limits and challenges; 2.2.3. MAC protocols for ad hoc networks; 2.2.4. Node mobility and location; 2.3. QoS routing: general considerations; 2.3.1. Functions of routing protocols; 2.3.2. Classification of routing protocols; 2.3.3. Expected routing protocol properties; 2.3.4. QoS routing problems; 2.4. Best-effort routing protocols in MANETs 2.4.1. Criteria for routing protocol classification2.4.2. Presentation of routing protocols; 2.5. QoS routing in MANETs; 2.5.1. Approaches for QoS routing; 2.5.2. Resource reservation; 2.5.3. Examples of reservation methods; 2.5.4. Estimation models; 2.5.5. Presentation of the main QoS routing protocols; 2.6. Conclusion; 2.7. Bibliography; Chapter 3. Self-Management of Ad Hoc Sensor Networks; 3.1. Introduction; 3.2. Wireless sensor networks; 3.2.1. Fields of application for sensor networks; 3.2.2. The principal components in a sensor; 3.2.3. Importance of energy in sensor networks 3.2.4. Transmission technologies3.2.5. Routing algorithms; 3.2.6. Main commercial offerings; 3.2.7. Key issues; 3.2.8. Projects on sensor networks; 3.3. Autonomic sensor networks; 3.3.1. Autonomic networking; 3.3.2. Self-configuration of sensor networks; 3.3.3. Self-healing of sensor networks; 3.3.4. Self-optimization of sensor networks; 3.3.5. Self-protection of sensor networks; 3.3.6. Projects relating to autonomy in sensor networks; 3.4. An example of self-configuration; 3.4.1. Energy optimization and automatic classification; 3.4.2. The LEA2C energy optimization algorithm 3.4.3. Performance evaluation of the LEA2C algorithm3.4.4. Improvements to the LEA2C algorithm; 3.5. Conclusion; 3.6. Bibliography; Chapter 4. RFID Technology; 4.1. Introduction; 4.2. Automatic identification systems; 4.2.1. Barcodes; 4.2.2. Optical character recognition (OCR) systems; 4.2.3. Biometric identification; 4.2.4. Microchip cards; 4.2.5. RFID systems; 4.3. The components of an RFID system; 4.4. The different types of RFID systems; 4.4.1. Bottom of the range RFID systems; 4.4.2. Mid-range RFID systems; 4.4.3. Top of the range RFID systems; 4.5. RF ranges; 4.6. Information security 4.6.1. Symmetric mutual authentication
Record Nr.	UNINA-9910139247003321

Pubbl/distr/stampa	London, : ISTE
Descrizione fisica	1 online resource (348 p.)
Disciplina	621.3815/31 621.381531 621.39
Altri autori (Persone)	KriefFrancine
Collana	ISTE
Soggetto topico	Networks on a chip
ISBN	1-118-55762-X 1-299-31539-9 1-118-61851-3
Classificazione	ST 153
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Cover; Communicating Embedded Systems; Title Page; Copyright Page; Table of Contents; General Introduction; Chapter 1. Introduction to Embedded Systems; 1.1. Introduction; 1.2. Embedded system: a definition; 1.3. Properties of an embedded system; 1.4. The significance of Moore's Law; 1.5. Embedded systems and the system on silicon; 1.6. Embedded systems and communications; 1.7. Embedded systems and security; 1.8. Embedded systems and time constraints; 1.9. Embedded systems and free software; 1.10. Embedded systems and their design; 1.11. An example of multimedia embedded system design 1.12. Conclusion1.13. Bibliography; Chapter 2. Quality-of-Service Routing in Mobile Ad Hoc Networks; 2.1. Introduction; 2.2. Mobile ad hoc networks: concepts, characteristics, challenges; 2.2.1. Concepts and basic principles; 2.2.2. Limits and challenges; 2.2.3. MAC protocols for ad hoc networks; 2.2.4. Node mobility and location; 2.3. QoS routing: general considerations; 2.3.1. Functions of routing protocols; 2.3.2. Classification of routing protocols; 2.3.3. Expected routing protocol properties; 2.3.4. QoS routing problems; 2.4. Best-effort routing protocols in MANETs 2.4.1. Criteria for routing protocol classification2.4.2. Presentation of routing protocols; 2.5. QoS routing in MANETs; 2.5.1. Approaches for QoS routing; 2.5.2. Resource reservation; 2.5.3. Examples of reservation methods; 2.5.4. Estimation models; 2.5.5. Presentation of the main QoS routing protocols; 2.6. Conclusion; 2.7. Bibliography; Chapter 3. Self-Management of Ad Hoc Sensor Networks; 3.1. Introduction; 3.2. Wireless sensor networks; 3.2.1. Fields of application for sensor networks; 3.2.2. The principal components in a sensor; 3.2.3. Importance of energy in sensor networks 3.2.4. Transmission technologies3.2.5. Routing algorithms; 3.2.6. Main commercial offerings; 3.2.7. Key issues; 3.2.8. Projects on sensor networks; 3.3. Autonomic sensor networks; 3.3.1. Autonomic networking; 3.3.2. Self-configuration of sensor networks; 3.3.3. Self-healing of sensor networks; 3.3.4. Self-optimization of sensor networks; 3.3.5. Self-protection of sensor networks; 3.3.6. Projects relating to autonomy in sensor networks; 3.4. An example of self-configuration; 3.4.1. Energy optimization and automatic classification; 3.4.2. The LEA2C energy optimization algorithm 3.4.3. Performance evaluation of the LEA2C algorithm3.4.4. Improvements to the LEA2C algorithm; 3.5. Conclusion; 3.6. Bibliography; Chapter 4. RFID Technology; 4.1. Introduction; 4.2. Automatic identification systems; 4.2.1. Barcodes; 4.2.2. Optical character recognition (OCR) systems; 4.2.3. Biometric identification; 4.2.4. Microchip cards; 4.2.5. RFID systems; 4.3. The components of an RFID system; 4.4. The different types of RFID systems; 4.4.1. Bottom of the range RFID systems; 4.4.2. Mid-range RFID systems; 4.4.3. Top of the range RFID systems; 4.5. RF ranges; 4.6. Information security 4.6.1. Symmetric mutual authentication
Record Nr.	UNINA-9910830381103321

Pubbl/distr/stampa	London, : ISTE
Descrizione fisica	1 online resource (348 p.)
Disciplina	621.3815/31
Altri autori (Persone)	KriefFrancine
Collana	ISTE
Soggetto topico	Networks on a chip
ISBN	1-118-55762-X 1-299-31539-9 1-118-61851-3
Classificazione	ST 153
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Cover; Communicating Embedded Systems; Title Page; Copyright Page; Table of Contents; General Introduction; Chapter 1. Introduction to Embedded Systems; 1.1. Introduction; 1.2. Embedded system: a definition; 1.3. Properties of an embedded system; 1.4. The significance of Moore's Law; 1.5. Embedded systems and the system on silicon; 1.6. Embedded systems and communications; 1.7. Embedded systems and security; 1.8. Embedded systems and time constraints; 1.9. Embedded systems and free software; 1.10. Embedded systems and their design; 1.11. An example of multimedia embedded system design 1.12. Conclusion1.13. Bibliography; Chapter 2. Quality-of-Service Routing in Mobile Ad Hoc Networks; 2.1. Introduction; 2.2. Mobile ad hoc networks: concepts, characteristics, challenges; 2.2.1. Concepts and basic principles; 2.2.2. Limits and challenges; 2.2.3. MAC protocols for ad hoc networks; 2.2.4. Node mobility and location; 2.3. QoS routing: general considerations; 2.3.1. Functions of routing protocols; 2.3.2. Classification of routing protocols; 2.3.3. Expected routing protocol properties; 2.3.4. QoS routing problems; 2.4. Best-effort routing protocols in MANETs 2.4.1. Criteria for routing protocol classification2.4.2. Presentation of routing protocols; 2.5. QoS routing in MANETs; 2.5.1. Approaches for QoS routing; 2.5.2. Resource reservation; 2.5.3. Examples of reservation methods; 2.5.4. Estimation models; 2.5.5. Presentation of the main QoS routing protocols; 2.6. Conclusion; 2.7. Bibliography; Chapter 3. Self-Management of Ad Hoc Sensor Networks; 3.1. Introduction; 3.2. Wireless sensor networks; 3.2.1. Fields of application for sensor networks; 3.2.2. The principal components in a sensor; 3.2.3. Importance of energy in sensor networks 3.2.4. Transmission technologies3.2.5. Routing algorithms; 3.2.6. Main commercial offerings; 3.2.7. Key issues; 3.2.8. Projects on sensor networks; 3.3. Autonomic sensor networks; 3.3.1. Autonomic networking; 3.3.2. Self-configuration of sensor networks; 3.3.3. Self-healing of sensor networks; 3.3.4. Self-optimization of sensor networks; 3.3.5. Self-protection of sensor networks; 3.3.6. Projects relating to autonomy in sensor networks; 3.4. An example of self-configuration; 3.4.1. Energy optimization and automatic classification; 3.4.2. The LEA2C energy optimization algorithm 3.4.3. Performance evaluation of the LEA2C algorithm3.4.4. Improvements to the LEA2C algorithm; 3.5. Conclusion; 3.6. Bibliography; Chapter 4. RFID Technology; 4.1. Introduction; 4.2. Automatic identification systems; 4.2.1. Barcodes; 4.2.2. Optical character recognition (OCR) systems; 4.2.3. Biometric identification; 4.2.4. Microchip cards; 4.2.5. RFID systems; 4.3. The components of an RFID system; 4.4. The different types of RFID systems; 4.4.1. Bottom of the range RFID systems; 4.4.2. Mid-range RFID systems; 4.4.3. Top of the range RFID systems; 4.5. RF ranges; 4.6. Information security 4.6.1. Symmetric mutual authentication
Record Nr.	UNINA-9910876937503321

Pubbl/distr/stampa	London, : ISTE
Descrizione fisica	1 online resource (420 p.)
Disciplina	681.2 681/.2
Altri autori (Persone)	BanâtreMichel <1950->
Collana	ISTE
Soggetto topico	Embedded computer systems Sensor networks
Soggetto genere / forma	Electronic books.
ISBN	1-282-16479-1 9786612164798 0-470-61081-6 0-470-39345-9
Classificazione	ST 153 ST 200
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Cooperating Embedded Systems and Wireless Sensor Networks; Table of Contents; Chapter 1. An Introduction to the Concept of Cooperating Objects and Sensor Networks; 1.1. Cooperating objects and wireless sensor networks; 1.2. Embedded WiSeNts; 1.3. Overview of the book; Chapter 2. Applications and Application Scenarios; 2.1. Summary; 2.2. Introduction; 2.3. Characteristics and requirements of applications; 2.4. State of the art projects; 2.5. Taxonomy of CO applications; 2.5.1. Control and Automation (CA); 2.5.2. Home and Office (HO); 2.5.3. Logistics (L); 2.5.4. Transportation (TA) 2.5.5. Environmental monitoring for emergency services (EM)2.5.6. Healthcare (H); 2.5.7. Security and Surveillance (SS); 2.5.8. Tourism (T); 2.5.9. Education and Training (ET); 2.6. Scenario description structure; 2.7. Application scenarios; 2.7.1. Forest fire detection scenario; 2.7.1.1. Introduction; 2.7.1.2. Scenario characteristics; 2.7.1.3. Functional specification; 2.7.1.4. Object decomposition; 2.7.1.5. Step-by-step scenario description; 2.7.1.6. System requirements; 2.7.2. Good Food; 2.7.2.1. Introduction; 2.7.2.2. Scenario characteristics; 2.7.2.3. User requirements 2.7.2.4. Functional specification2.7.2.5. Object decomposition; 2.7.2.6. Step-by-step scenario description; 2.7.2.7. System requirements; 2.7.3. CORTEX's Car Control; 2.7.3.1. Introduction; 2.7.3.2. Scenario characteristics; 2.7.3.3. User requirements; 2.7.3.4. Functional specification; 2.7.3.5. Object decomposition; 2.7.3.6. Step-by-step scenario description; 2.7.3.7. System requirements; 2.7.4. Hogthrob; 2.7.4.1. Introduction; 2.7.4.2. Scenario characteristics; 2.7.4.3. User requirements; 2.7.4.4. Functional specification; 2.7.4.5. Object decomposition 2.7.4.6. Step-by-step scenario description2.7.5. Smart surroundings; 2.7.5.1. Introduction; 2.7.5.2. Scenario characteristics; 2.7.5.3. System requirements; 2.7.6. Sustainable bridges; 2.7.6.1. Introduction; 2.7.6.2. Application characteristics; 2.7.6.3. System requirements; 2.7.6.4. Functional specification; 2.7.6.5. Object decomposition; 2.8. Conclusions; 2.9. List of abbreviations; 2.10. Bibliography; Chapter 3. Paradigms for Algorithms and Interactions; 3.1. Summary; 3.2. Introduction; 3.2.1. Aim of the chapter; 3.2.2. Organization of the chapter; 3.3. Definition of concepts 3.4. Wireless sensor networks for environmental monitoring3.4.1. Application scenarios; 3.4.2. Peculiarities of WSNs; 3.4.3. Medium Access Control; 3.4.3.1. Random Access Protocols; 3.4.3.2. Deterministic access protocols; 3.4.4. Routing and forwarding algorithms; 3.4.4.1. Location-based routing; 3.4.4.2. Data-centric routing; 3.4.4.3. Hierarchical-based routing; 3.4.5. Sensor data aggregation; 3.4.6. Clustering and backbone formation; 3.4.6.1. Clustering for ad hoc networks; 3.4.6.2. Clustering for WSNs; 3.4.7. Localization in ad hoc and WSNs; 3.4.7.1. Range-free localization 3.4.7.2. Range-based localization
Record Nr.	UNINA-9910139469103321

Pubbl/distr/stampa	London, : ISTE
Descrizione fisica	1 online resource (420 p.)
Disciplina	681.2 681/.2
Altri autori (Persone)	BanâtreMichel <1950->
Collana	ISTE
Soggetto topico	Embedded computer systems Sensor networks
ISBN	1-282-16479-1 9786612164798 0-470-61081-6 0-470-39345-9
Classificazione	ST 153 ST 200
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Cooperating Embedded Systems and Wireless Sensor Networks; Table of Contents; Chapter 1. An Introduction to the Concept of Cooperating Objects and Sensor Networks; 1.1. Cooperating objects and wireless sensor networks; 1.2. Embedded WiSeNts; 1.3. Overview of the book; Chapter 2. Applications and Application Scenarios; 2.1. Summary; 2.2. Introduction; 2.3. Characteristics and requirements of applications; 2.4. State of the art projects; 2.5. Taxonomy of CO applications; 2.5.1. Control and Automation (CA); 2.5.2. Home and Office (HO); 2.5.3. Logistics (L); 2.5.4. Transportation (TA) 2.5.5. Environmental monitoring for emergency services (EM)2.5.6. Healthcare (H); 2.5.7. Security and Surveillance (SS); 2.5.8. Tourism (T); 2.5.9. Education and Training (ET); 2.6. Scenario description structure; 2.7. Application scenarios; 2.7.1. Forest fire detection scenario; 2.7.1.1. Introduction; 2.7.1.2. Scenario characteristics; 2.7.1.3. Functional specification; 2.7.1.4. Object decomposition; 2.7.1.5. Step-by-step scenario description; 2.7.1.6. System requirements; 2.7.2. Good Food; 2.7.2.1. Introduction; 2.7.2.2. Scenario characteristics; 2.7.2.3. User requirements 2.7.2.4. Functional specification2.7.2.5. Object decomposition; 2.7.2.6. Step-by-step scenario description; 2.7.2.7. System requirements; 2.7.3. CORTEX's Car Control; 2.7.3.1. Introduction; 2.7.3.2. Scenario characteristics; 2.7.3.3. User requirements; 2.7.3.4. Functional specification; 2.7.3.5. Object decomposition; 2.7.3.6. Step-by-step scenario description; 2.7.3.7. System requirements; 2.7.4. Hogthrob; 2.7.4.1. Introduction; 2.7.4.2. Scenario characteristics; 2.7.4.3. User requirements; 2.7.4.4. Functional specification; 2.7.4.5. Object decomposition 2.7.4.6. Step-by-step scenario description2.7.5. Smart surroundings; 2.7.5.1. Introduction; 2.7.5.2. Scenario characteristics; 2.7.5.3. System requirements; 2.7.6. Sustainable bridges; 2.7.6.1. Introduction; 2.7.6.2. Application characteristics; 2.7.6.3. System requirements; 2.7.6.4. Functional specification; 2.7.6.5. Object decomposition; 2.8. Conclusions; 2.9. List of abbreviations; 2.10. Bibliography; Chapter 3. Paradigms for Algorithms and Interactions; 3.1. Summary; 3.2. Introduction; 3.2.1. Aim of the chapter; 3.2.2. Organization of the chapter; 3.3. Definition of concepts 3.4. Wireless sensor networks for environmental monitoring3.4.1. Application scenarios; 3.4.2. Peculiarities of WSNs; 3.4.3. Medium Access Control; 3.4.3.1. Random Access Protocols; 3.4.3.2. Deterministic access protocols; 3.4.4. Routing and forwarding algorithms; 3.4.4.1. Location-based routing; 3.4.4.2. Data-centric routing; 3.4.4.3. Hierarchical-based routing; 3.4.5. Sensor data aggregation; 3.4.6. Clustering and backbone formation; 3.4.6.1. Clustering for ad hoc networks; 3.4.6.2. Clustering for WSNs; 3.4.7. Localization in ad hoc and WSNs; 3.4.7.1. Range-free localization 3.4.7.2. Range-based localization
Record Nr.	UNINA-9910829891703321