Position Based Interaction for Indoor Ambient Intelligence Environments 1st edition by Fabrice Blache, Naoufel Chraiet, Olivier Daroux, Frederic Evennou, Thibaud Flury, Gilles Privat, Jean Paul Viboud ISBN 3540204183 9783540204183
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Authors:Fabrice Blache, Naoufel Chraiet, Olivier Daroux, Frédéric Evennou, Thibaud Flury, Gilles Privat; Jean-Paul Viboud , Tags:Ambient Intelligence , Author sort:Fabrice Blache, Naoufel Chraiet, Olivier Daroux, Frédéric Evennou, Thibaud Flury, Gilles Privat & Viboud, Jean-Paul , Languages:Languages:eng , Published:Published:Sep 2003
Position-Based Interaction for Indoor Ambient Intelligence Environments 1st edition by Fabrice Blache, Naoufel Chraiet, Olivier Daroux, Frédéric Evennou, Thibaud Flury, Gilles Privat, Jean-Paul Viboud – Ebook PDF Instant Download/Delivery. 3540204183, 978-3540204183
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Product details:
ISBN 10: 3540204183
ISBN 13: 978-3540204183
Author: Fabrice Blache, Naoufel Chraiet, Olivier Daroux, Frédéric Evennou, Thibaud Flury, Gilles Privat, Jean-Paul Viboud
We present a platform and a set of position-adaptive basic services for indoor ambient intelligence environments. This suite of TM-based services implement various instances of implicit interaction based on the user’s position, mediated by a handheld personal device. An indoor navigation system has been implemented as a prototype application for a structured location-management infrastructure that maintains information about all fixed, movable and mobile features of the ambient environment, according to complementary abstract models of this space. Location and navigation information is presented to the user’s handheld device as a fully scalable, dynamic SVG scene. 802.11 fingerprinting is used as a basis for location-estimation at an inter-room scale, while RFID is used for close-range (intra-room) position detection.
Position-Based Interaction for Indoor Ambient Intelligence Environments 1st Table of contents:
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Introduction
- 1.1 Background and Motivation
- 1.2 Scope and Objectives
- 1.3 Key Contributions of the Paper
- 1.4 Paper Structure
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Related Work
- 2.1 Ambient Intelligence and Smart Environments
- 2.2 Position-Based Interaction Technologies
- 2.2.1 Indoor Positioning Systems (IPS)
- 2.2.2 Gesture and Motion-Based Interaction
- 2.2.3 Location-Aware Systems
- 2.3 Previous Applications of Position-Based Interaction in Smart Homes and Offices
- 2.4 Challenges in Position-Based Interaction for Ambient Intelligence
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Designing Position-Based Interaction in Ambient Environments
- 3.1 Concept of Position-Based Interaction
- 3.2 Technological Foundations
- 3.2.1 Sensor Networks and Tracking Systems
- 3.2.2 Integration of GPS, RFID, Bluetooth, and Ultra-Wideband Technologies
- 3.3 System Architecture and Components
- 3.3.1 Sensors and Devices for Positioning
- 3.3.2 Interaction Modules (UI, Feedback, etc.)
- 3.4 Communication Protocols and Data Flow
- 3.5 User-Centric Design Considerations
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User Interaction Models in Position-Based Systems
- 4.1 Types of User Interactions
- 4.1.1 Physical Movement-Based Interaction
- 4.1.2 Gesture and Posture Recognition
- 4.1.3 Touch and Proximity Sensing
- 4.2 Context Awareness and Personalization
- 4.3 Adaptive and Responsive Interaction Models
- 4.4 Privacy and Security Concerns in Position Tracking
- 4.5 Feedback Mechanisms (Visual, Auditory, Haptic)
- 4.1 Types of User Interactions
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Applications of Position-Based Interaction
- 5.1 Indoor Navigation and Wayfinding
- 5.1.1 Personalized Navigation in Buildings and Complex Spaces
- 5.1.2 Emergency Response and Assistance
- 5.2 Smart Home Automation and Control
- 5.2.1 Personalized Room Control (Lighting, Temperature)
- 5.2.2 Home Security and Surveillance
- 5.3 Interactive Exhibits and Digital Signage
- 5.3.1 Museums, Galleries, and Public Spaces
- 5.3.2 Advertising and Information Systems
- 5.4 Healthcare Applications
- 5.4.1 Monitoring Patients and Elderly
- 5.4.2 Position-Based Healthcare Assistance
- 5.1 Indoor Navigation and Wayfinding
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Challenges and Limitations
- 6.1 Accuracy and Reliability of Position Tracking
- 6.2 Scalability of Position-Based Systems in Large Environments
- 6.3 Environmental Factors Affecting Positioning (e.g., interference, obstacles)
- 6.4 Privacy Issues and Data Security in Position Tracking
- 6.5 User Acceptance and Comfort in Position-Based Systems
- 6.6 Energy Consumption in Mobile and IoT Devices
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Evaluation of Position-Based Interaction Systems
- 7.1 Methods for Evaluating User Experience
- 7.1.1 Usability Testing and User Feedback
- 7.1.2 Performance Metrics (Accuracy, Speed, Reliability)
- 7.2 Case Studies and Pilot Deployments
- 7.2.1 Smart Offices and Workspaces
- 7.2.2 Healthcare and Assisted Living Environments
- 7.3 Comparison with Other Interaction Modalities
- 7.4 Lessons Learned from Evaluation Studies
- 7.1 Methods for Evaluating User Experience
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Future Directions and Research Opportunities
- 8.1 Advancements in Positioning Technologies (e.g., 5G, UWB)
- 8.2 Integration with AI and Machine Learning for Context Awareness
- 8.3 Multi-Modal Interaction and Gesture Integration
- 8.4 Energy-Efficient Positioning Systems
- 8.5 Standardization and Interoperability of Position-Based Systems
- 8.6 Ethical and Social Implications of Ambient Intelligence
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Conclusion
- 9.1 Summary of Findings
- 9.2 The Impact of Position-Based Interaction on Ambient Intelligence
- 9.3 Closing Remarks
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