Handbook on Mobile and Ubiquitous Computing

Handbook on Mobile and Ubiquitous Computing

by Laurence T. Yang, Evi Syukur, Seng W. Loke
Released April 2016
Publisher(s): CRC Press
ISBN: 9781439848128

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Book description

Written for those familiar with the basics and active in the area of mobile and ubiquitous computing, this volume contains papers that aid in understanding key issues and problems being tackled in the field. This text illustrates the design, implementation, and deployment of mobile and ubiquitous systems, particularly on mobile and ubiquitous environments, concepts, modeling, database components, and wireless infrastructures. It discusses new trends towards intelligent systems that aim to create software systems and discusses sensory input and multimedia information. The chapters also cover security, privacy, and trust.

Table of contents

  1. Front Cover
  2. Handbook on Mobile and Ubiquitous Computing: Status and Perspective
  3. Copyright
  4. Table of Contents
  5. Preface (1/2)
  6. Preface (2/2)
  7. Acknowledgments
  8. Editors
  9. Contributors (1/2)
  10. Contributors (2/2)
  11. PART I: Mobile and Ubiquitous Computing
    1. 1. Automatic Identification of Location Semantics Based on Environmental Entities (1/4)
    2. 1. Automatic Identification of Location Semantics Based on Environmental Entities (2/4)
    3. 1. Automatic Identification of Location Semantics Based on Environmental Entities (3/4)
    4. 1. Automatic Identification of Location Semantics Based on Environmental Entities (4/4)
    5. 2. Wireless Payment and Systems (1/8)
    6. 2. Wireless Payment and Systems (2/8)
    7. 2. Wireless Payment and Systems (3/8)
    8. 2. Wireless Payment and Systems (4/8)
    9. 2. Wireless Payment and Systems (5/8)
    10. 2. Wireless Payment and Systems (6/8)
    11. 2. Wireless Payment and Systems (7/8)
    12. 2. Wireless Payment and Systems (8/8)
    13. 3. A World Model for Smart Spaces (1/4)
    14. 3. A World Model for Smart Spaces (2/4)
    15. 3. A World Model for Smart Spaces (3/4)
    16. 3. A World Model for Smart Spaces (4/4)
    17. 4. Software Architecture for a Multi-Protocol RFID Reader on Mobile Devices (1/7)
    18. 4. Software Architecture for a Multi-Protocol RFID Reader on Mobile Devices (2/7)
    19. 4. Software Architecture for a Multi-Protocol RFID Reader on Mobile Devices (3/7)
    20. 4. Software Architecture for a Multi-Protocol RFID Reader on Mobile Devices (4/7)
    21. 4. Software Architecture for a Multi-Protocol RFID Reader on Mobile Devices (5/7)
    22. 4. Software Architecture for a Multi-Protocol RFID Reader on Mobile Devices (6/7)
    23. 4. Software Architecture for a Multi-Protocol RFID Reader on Mobile Devices (7/7)
  12. PART II: Smart Environments and Agent Systems
    1. 5. Autonomous Timeliness and Reliability Oriented Information Services Integration Services Integration and Access in Multi-Agent Systems (1/5)
    2. 5. Autonomous Timeliness and Reliability Oriented Information Services Integration Services Integration and Access in Multi-Agent Systems (2/5)
    3. 5. Autonomous Timeliness and Reliability Oriented Information Services Integration Services Integration and Access in Multi-Agent Systems (3/5)
    4. 5. Autonomous Timeliness and Reliability Oriented Information Services Integration Services Integration and Access in Multi-Agent Systems (4/5)
    5. 5. Autonomous Timeliness and Reliability Oriented Information Services Integration Services Integration and Access in Multi-Agent Systems (5/5)
    6. 6. Ubiquitous Intersection Awareness (U&I Aware): A Framework for Intersection Safety (1/6)
    7. 6. Ubiquitous Intersection Awareness (U&I Aware): A Framework for Intersection Safety (2/6)
    8. 6. Ubiquitous Intersection Awareness (U&I Aware): A Framework for Intersection Safety (3/6)
    9. 6. Ubiquitous Intersection Awareness (U&I Aware): A Framework for Intersection Safety (4/6)
    10. 6. Ubiquitous Intersection Awareness (U&I Aware): A Framework for Intersection Safety (5/6)
    11. 6. Ubiquitous Intersection Awareness (U&I Aware): A Framework for Intersection Safety (6/6)
    12. 7. Agent-Based Intrinsically Motivated Intelligent Environments. (1/8)
    13. 7. Agent-Based Intrinsically Motivated Intelligent Environments. (2/8)
    14. 7. Agent-Based Intrinsically Motivated Intelligent Environments. (3/8)
    15. 7. Agent-Based Intrinsically Motivated Intelligent Environments. (4/8)
    16. 7. Agent-Based Intrinsically Motivated Intelligent Environments. (5/8)
    17. 7. Agent-Based Intrinsically Motivated Intelligent Environments. (6/8)
    18. 7. Agent-Based Intrinsically Motivated Intelligent Environments. (7/8)
    19. 7. Agent-Based Intrinsically Motivated Intelligent Environments. (8/8)
    20. 8. Building Smart Spaces with Intelligent Objects (1/5)
    21. 8. Building Smart Spaces with Intelligent Objects (2/5)
    22. 8. Building Smart Spaces with Intelligent Objects (3/5)
    23. 8. Building Smart Spaces with Intelligent Objects (4/5)
    24. 8. Building Smart Spaces with Intelligent Objects (5/5)
  13. PART III: Human–Computer Interaction (HCI) and Multimedia Computing
    1. 9. Designing Multi-Sensory Displays for Mobile Devices (1/6)
    2. 9. Designing Multi-Sensory Displays for Mobile Devices (2/6)
    3. 9. Designing Multi-Sensory Displays for Mobile Devices (3/6)
    4. 9. Designing Multi-Sensory Displays for Mobile Devices (4/6)
    5. 9. Designing Multi-Sensory Displays for Mobile Devices (5/6)
    6. 9. Designing Multi-Sensory Displays for Mobile Devices (6/6)
    7. 10. User’s Perception of Web Multimedia Interfaces: An Exploratory Experiment (1/5)
    8. 10. User’s Perception of Web Multimedia Interfaces: An Exploratory Experiment (2/5)
    9. 10. User’s Perception of Web Multimedia Interfaces: An Exploratory Experiment (3/5)
    10. 10. User’s Perception of Web Multimedia Interfaces: An Exploratory Experiment (4/5)
    11. 10. User’s Perception of Web Multimedia Interfaces: An Exploratory Experiment (5/5)
    12. 11. Integrated Multimedia Understanding for Ubiquitous Intelligence Based on Mental Image Directed Semantic Theory (1/7)
    13. 11. Integrated Multimedia Understanding for Ubiquitous Intelligence Based on Mental Image Directed Semantic Theory (2/7)
    14. 11. Integrated Multimedia Understanding for Ubiquitous Intelligence Based on Mental Image Directed Semantic Theory (3/7)
    15. 11. Integrated Multimedia Understanding for Ubiquitous Intelligence Based on Mental Image Directed Semantic Theory (4/7)
    16. 11. Integrated Multimedia Understanding for Ubiquitous Intelligence Based on Mental Image Directed Semantic Theory (5/7)
    17. 11. Integrated Multimedia Understanding for Ubiquitous Intelligence Based on Mental Image Directed Semantic Theory (6/7)
    18. 11. Integrated Multimedia Understanding for Ubiquitous Intelligence Based on Mental Image Directed Semantic Theory (7/7)
  14. PART IV: Security, Privacy, and Trust Management
    1. 12. Agent-Based Automated Trust Negotiation and Management for Pervasive Computing (1/4)
    2. 12. Agent-Based Automated Trust Negotiation and Management for Pervasive Computing (2/4)
    3. 12. Agent-Based Automated Trust Negotiation and Management for Pervasive Computing (3/4)
    4. 12. Agent-Based Automated Trust Negotiation and Management for Pervasive Computing (4/4)
    5. 13. ÆTHER: Securing Ubiquitous Computing Environments (1/8)
    6. 13. ÆTHER: Securing Ubiquitous Computing Environments (2/8)
    7. 13. ÆTHER: Securing Ubiquitous Computing Environments (3/8)
    8. 13. ÆTHER: Securing Ubiquitous Computing Environments (4/8)
    9. 13. ÆTHER: Securing Ubiquitous Computing Environments (5/8)
    10. 13. ÆTHER: Securing Ubiquitous Computing Environments (6/8)
    11. 13. ÆTHER: Securing Ubiquitous Computing Environments (7/8)
    12. 13. ÆTHER: Securing Ubiquitous Computing Environments (8/8)
    13. 14. Enhancing Privacy of Universal Re-Encryption Scheme for RFID Tags (1/3)
    14. 14. Enhancing Privacy of Universal Re-Encryption Scheme for RFID Tags (2/3)
    15. 14. Enhancing Privacy of Universal Re-Encryption Scheme for RFID Tags (3/3)
  15. PART V: Embedded Real-Time Systems
    1. 15. Reconfigurable Microarchitecture-Based Low Power Motion Compensation for H.264/AVC (1/3)
    2. 15. Reconfigurable Microarchitecture-Based Low Power Motion Compensation for H.264/AVC (2/3)
    3. 15. Reconfigurable Microarchitecture-Based Low Power Motion Compensation for H.264/AVC (3/3)
    4. 16. Automatic Synthesis and Verification of Real-Time Embedded Software for Mobile and Ubiquitous Systems (1/5)
    5. 16. Automatic Synthesis and Verification of Real-Time Embedded Software for Mobile and Ubiquitous Systems (2/5)
    6. 16. Automatic Synthesis and Verification of Real-Time Embedded Software for Mobile and Ubiquitous Systems (3/5)
    7. 16. Automatic Synthesis and Verification of Real-Time Embedded Software for Mobile and Ubiquitous Systems (4/5)
    8. 16. Automatic Synthesis and Verification of Real-Time Embedded Software for Mobile and Ubiquitous Systems (5/5)
    9. 17. Agent-Based Architecture on Reconfigurable System-on-Chip for Real-Time Systems (1/5)
    10. 17. Agent-Based Architecture on Reconfigurable System-on-Chip for Real-Time Systems (2/5)
    11. 17. Agent-Based Architecture on Reconfigurable System-on-Chip for Real-Time Systems (3/5)
    12. 17. Agent-Based Architecture on Reconfigurable System-on-Chip for Real-Time Systems (4/5)
    13. 17. Agent-Based Architecture on Reconfigurable System-on-Chip for Real-Time Systems (5/5)
  16. PART VI: Networking Sensing and Communications
    1. 18. Hardware Task Scheduling for an FPGA-Based Mobile Robot in Wireless Sensor Networks (1/6)
    2. 18. Hardware Task Scheduling for an FPGA-Based Mobile Robot in Wireless Sensor Networks (2/6)
    3. 18. Hardware Task Scheduling for an FPGA-Based Mobile Robot in Wireless Sensor Networks (3/6)
    4. 18. Hardware Task Scheduling for an FPGA-Based Mobile Robot in Wireless Sensor Networks (4/6)
    5. 18. Hardware Task Scheduling for an FPGA-Based Mobile Robot in Wireless Sensor Networks (5/6)
    6. 18. Hardware Task Scheduling for an FPGA-Based Mobile Robot in Wireless Sensor Networks (6/6)
    7. 19. Logical Location-Based Multicast Routing in Large-Scale Mobile Ad Hoc Networks (1/4)
    8. 19. Logical Location-Based Multicast Routing in Large-Scale Mobile Ad Hoc Networks (2/4)
    9. 19. Logical Location-Based Multicast Routing in Large-Scale Mobile Ad Hoc Networks (3/4)
    10. 19. Logical Location-Based Multicast Routing in Large-Scale Mobile Ad Hoc Networks (4/4)
    11. 20. Performance Analysis of Dynamic Routing Protocols for Mobile Ad Hoc Networks (1/4)
    12. 20. Performance Analysis of Dynamic Routing Protocols for Mobile Ad Hoc Networks (2/4)
    13. 20. Performance Analysis of Dynamic Routing Protocols for Mobile Ad Hoc Networks (3/4)
    14. 20. Performance Analysis of Dynamic Routing Protocols for Mobile Ad Hoc Networks (4/4)
    15. 21. Analysis of Connectivity for Sensor Networks Using Geometrical Probability (1/5)
    16. 21. Analysis of Connectivity for Sensor Networks Using Geometrical Probability (2/5)
    17. 21. Analysis of Connectivity for Sensor Networks Using Geometrical Probability (3/5)
    18. 21. Analysis of Connectivity for Sensor Networks Using Geometrical Probability (4/5)
    19. 21. Analysis of Connectivity for Sensor Networks Using Geometrical Probability (5/5)
    20. 22. Weighted Localized Clustering: A Coverage-Aware Reader Collision Arbitration Protocol in RFID Networks (1/5)
    21. 22. Weighted Localized Clustering: A Coverage-Aware Reader Collision Arbitration Protocol in RFID Networks (2/5)
    22. 22. Weighted Localized Clustering: A Coverage-Aware Reader Collision Arbitration Protocol in RFID Networks (3/5)
    23. 22. Weighted Localized Clustering: A Coverage-Aware Reader Collision Arbitration Protocol in RFID Networks (4/5)
    24. 22. Weighted Localized Clustering: A Coverage-Aware Reader Collision Arbitration Protocol in RFID Networks (5/5)
    25. 23. Coupled Simulation/Emulation for Cross-Layer Design of Mobile Robotics and Vehicular Network Applications. (1/6)
    26. 23. Coupled Simulation/Emulation for Cross-Layer Design of Mobile Robotics and Vehicular Network Applications. (2/6)
    27. 23. Coupled Simulation/Emulation for Cross-Layer Design of Mobile Robotics and Vehicular Network Applications. (3/6)
    28. 23. Coupled Simulation/Emulation for Cross-Layer Design of Mobile Robotics and Vehicular Network Applications. (4/6)
    29. 23. Coupled Simulation/Emulation for Cross-Layer Design of Mobile Robotics and Vehicular Network Applications. (5/6)
    30. 23. Coupled Simulation/Emulation for Cross-Layer Design of Mobile Robotics and Vehicular Network Applications. (6/6)
    31. 24. Dynamic Routing and Wavelength Assignment in Optical WDM Networks with Ant-Based Mobile Agents (1/7)
    32. 24. Dynamic Routing and Wavelength Assignment in Optical WDM Networks with Ant-Based Mobile Agents (2/7)
    33. 24. Dynamic Routing and Wavelength Assignment in Optical WDM Networks with Ant-Based Mobile Agents (3/7)
    34. 24. Dynamic Routing and Wavelength Assignment in Optical WDM Networks with Ant-Based Mobile Agents (4/7)
    35. 24. Dynamic Routing and Wavelength Assignment in Optical WDM Networks with Ant-Based Mobile Agents (5/7)
    36. 24. Dynamic Routing and Wavelength Assignment in Optical WDM Networks with Ant-Based Mobile Agents (6/7)
    37. 24. Dynamic Routing and Wavelength Assignment in Optical WDM Networks with Ant-Based Mobile Agents (7/7)
    38. 25. A Modular Software Architecture for Adaptable Mobile Ad Hoc Routing Strategies. (1/6)
    39. 25. A Modular Software Architecture for Adaptable Mobile Ad Hoc Routing Strategies. (2/6)
    40. 25. A Modular Software Architecture for Adaptable Mobile Ad Hoc Routing Strategies. (3/6)
    41. 25. A Modular Software Architecture for Adaptable Mobile Ad Hoc Routing Strategies. (4/6)
    42. 25. A Modular Software Architecture for Adaptable Mobile Ad Hoc Routing Strategies. (5/6)
    43. 25. A Modular Software Architecture for Adaptable Mobile Ad Hoc Routing Strategies. (6/6)
    44. 26. Efficient Mobility Management Schemes: Distance and Direction-Based Location Update and Sectional Ring Paging (1/4)
    45. 26. Efficient Mobility Management Schemes: Distance and Direction-Based Location Update and Sectional Ring Paging (2/4)
    46. 26. Efficient Mobility Management Schemes: Distance and Direction-Based Location Update and Sectional Ring Paging (3/4)
    47. 26. Efficient Mobility Management Schemes: Distance and Direction-Based Location Update and Sectional Ring Paging (4/4)
    48. 27. Enhancing TCP Performance and Connectivity in Ad Hoc Networks (1/4)
    49. 27. Enhancing TCP Performance and Connectivity in Ad Hoc Networks (2/4)
    50. 27. Enhancing TCP Performance and Connectivity in Ad Hoc Networks (3/4)
    51. 27. Enhancing TCP Performance and Connectivity in Ad Hoc Networks (4/4)
  17. Back Cover

Product information

  • Title: Handbook on Mobile and Ubiquitous Computing
  • Author(s): Laurence T. Yang, Evi Syukur, Seng W. Loke
  • Release date: April 2016
  • Publisher(s): CRC Press
  • ISBN: 9781439848128