Intelligent Wearable Interfaces
by Xu, Yang; Li, Wen Jung; Lee, Ka KeungEdition: 1st
Format: Hardcover
Pub. Date: 2007-12-26
Publisher(s): Wiley-Interscience
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Summary
This book introduces methodologies to develop a variety of wearable interfacessmall body-worn intelligent machines that are always with the user and are designed to be useful in mobile settings. The authors address the development of these intelligent caps, glasses, shoes, finger rings, etc., as mobile devices for control, communication, and recognition and discuss the technologies associated with them, such as architecture, learning, and real-life applications.
Author Biography
Yangsheng Xu, PhD, is Chair Professor of Mechanical and Automation Engineering in The Chinese University of Hong Kong (CUHK). Before joining CUHK, he was a faculty member at the Robotics Institute, School of Computer Science, Carnegie Mellon University. His research interests include robotics, intelligent systems, human-machine interface, and hybrid electric vehicles.
Wen Jung Li, PhD, is a Professor in the Department of Mechanical and Automation Engineering and the Director of the Centre for Micro and Nano Systems at The Chinese University of Hong Kong (CUHK). Before joining CUHK, he held R&D positions at the NASA Jet Propulsion Laboratory (Pasadena), the Aerospace Corporation (El Segundo), and Silicon Microstructures, Inc. (Fremont). His research interests include micro-electro-mechanical systems and nano-scale sensing and manipulation.
Ka Keung Lee, PhD, is a Lecturer in the Department of Mechanical Engineering at The Hong Kong Polytechnic University (PolyU). Before joining PolyU, he was a postdoctoral fellow at The Chinese University of Hong Kong. His research interests include robotics, intelligent systems, human modeling, andintelligent surveillance.
Table of Contents
| List of Figures | p. xi |
| List of Tables | p. xvii |
| Preface | p. xix |
| Introduction | p. 1 |
| The Intelligent Wearable Interface | p. 1 |
| Learning from Demonstration | p. 2 |
| Network Architecture for Wearable Robots | p. 5 |
| Introduction | p. 5 |
| Wearable Robots and Interactions | p. 7 |
| Wearable Robot Design | p. 8 |
| Distributed Service-Based Architecture | p. 10 |
| Extension to the Jini Model | p. 12 |
| The Matching Service | p. 17 |
| Application Scenario | p. 21 |
| Related Works | p. 25 |
| Conclusion | p. 27 |
| Wearable Interface for Automatic Language Translation | p. 31 |
| Introduction | p. 31 |
| System Architecture | p. 33 |
| Text Detection Algorithm | p. 34 |
| Demands of Text Detection Algorithm | p. 34 |
| Intrinsic Characteristic of a Character | p. 35 |
| CIC-Based Text Detection Algorithm | p. 35 |
| Combine Line Segments into a Character | p. 38 |
| Image Cutting, Rotation, and Binarization | p. 39 |
| Image Cutting and Rotation | p. 39 |
| Image Binarization | p. 39 |
| Real-ime Translation | p. 41 |
| Conclusion | p. 41 |
| Intelligent Cap Interface for Wheelchair Control | p. 43 |
| Introduction | p. 43 |
| Electromyography and Electrooculography | p. 45 |
| Approach | p. 45 |
| Interface | p. 47 |
| Hardware | p. 47 |
| Implementation | p. 49 |
| Experimental Study | p. 51 |
| Doorways (A-B) | p. 52 |
| U-turning (B-C-B) | p. 53 |
| General Path (C-D) | p. 53 |
| Conclusion | p. 54 |
| Intelligent Shoes for Human-Computer Interface | p. 56 |
| Introduction | p. 56 |
| Hardware Design | p. 58 |
| Sensing the Parameters Inside the Shoe | p. 59 |
| Gathering Information from the Sensors | p. 60 |
| Wireless Communication | p. 60 |
| Data Visualization | p. 61 |
| Three Applications of the Intelligent Shoes | p. 61 |
| Intelligent Shoes for Human-Computer Interface: Shoe-Mouse | p. 61 |
| Intelligent Shoes for Pressure Measurement | p. 66 |
| Intelligent Shoes for Human Identification | p. 75 |
| Conclusion | p. 84 |
| Fingertip Human-Computer Interface | p. 88 |
| Introduction | p. 88 |
| Hardware Design | p. 90 |
| MEMS Accelerator for Motion Detection | p. 91 |
| Signal Processing and Analysis | p. 95 |
| Radio-Frequency (RF) Wireless System | p. 98 |
| System Evaluation | p. 99 |
| Specific Applications | p. 103 |
| Human-Robotic-Hand Interaction Using MIDS | p. 103 |
| Computer Mouse on a Fingertip (MIDS-VM) | p. 109 |
| Computer Game Interaction Using MIDS | p. 121 |
| MIDS for PDA Interaction (Embedded-MIDS: E-IDS) | p. 126 |
| Conclusion | p. 136 |
| Ubiquitous 3D Digital Writing Instrument | p. 139 |
| Introduction | p. 139 |
| Hardware Design | p. 141 |
| Signal Processing and Analysis | p. 142 |
| Kalman Filtering for MEMS Sensors | p. 145 |
| Time Update Model | p. 147 |
| Error Model for Time Update | p. 147 |
| Measurement Update Model | p. 148 |
| Testing | p. 150 |
| Simulation Test | p. 150 |
| Experiment Test | p. 151 |
| Writing Application Based on Attitude EKF Compensation | p. 152 |
| Experimental Results of an Integrated System | p. 157 |
| Conclusion | p. 166 |
| Intelligent Mobile Human Airbag System | p. 169 |
| Introduction | p. 169 |
| Hardware Design | p. 171 |
| [mu]IMU System Design | p. 172 |
| Mechanical Release Mechanism | p. 172 |
| Minimization of Airbag Inflation Time | p. 174 |
| The Punch Test for the Second Mechanism | p. 175 |
| System Integration | p. 178 |
| Support Vector Machine for Human Motion Determination | p. 181 |
| Principal Component Analysis for Feature Generation | p. 181 |
| Support Vector Machine Classifier | p. 183 |
| Experimental Results | p. 185 |
| Motion Detection Experiments and Database Forming | p. 185 |
| SVM Training and Falling-Down Recognition | p. 188 |
| Conclusion | p. 189 |
| Index | p. 191 |
| Table of Contents provided by Ingram. All Rights Reserved. |
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