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Spatial-geometric approach to physical mobile interaction based on accelerometer and IR sensory data fusion

Spatial-geometric approach to physical mobile interaction based on accelerometer and IR sensory... Spatial-Geometric Approach to Physical Mobile Interaction Based on Accelerometer and IR Sensory Data Fusion ABU SALEH MD MAHFUJUR RAHMAN, University of Ottawa M ANWAR HOSSAIN, University of Ottawa, King Saud University ABDULMOTALEB EL SADDIK, University of Ottawa Interaction with the physical environment using mobile phones has become increasingly desirable and feasible. Nowadays mobile phones are being used to control different devices and access information/services related to those devices. To facilitate such interaction, devices are usually marked with RFID tags or visual markers, which are read by a mobile phone equipped with an integrated RFID reader or camera to fetch related information about those objects and initiate further actions. This article contributes in this domain of mobile physical interaction; however, using a spatial-geometric approach for interacting with indoor physical objects and artifacts instead of RFID based solutions. Using this approach, a mobile phone can point from a distance to an annotated object or a spatial subregion of that object for the purpose of interaction. The pointing direction and location is determined based on the fusion of IR camera and accelerometer data, where the IR cameras are used to calculate the 3D position of the mobile phone users and the http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png ACM Transactions on Multimedia Computing, Communications, and Applications (TOMCCAP) Association for Computing Machinery

Spatial-geometric approach to physical mobile interaction based on accelerometer and IR sensory data fusion

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Publisher
Association for Computing Machinery
Copyright
Copyright © 2010 by ACM Inc.
ISSN
1551-6857
DOI
10.1145/1865106.1865112
Publisher site
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Abstract

Spatial-Geometric Approach to Physical Mobile Interaction Based on Accelerometer and IR Sensory Data Fusion ABU SALEH MD MAHFUJUR RAHMAN, University of Ottawa M ANWAR HOSSAIN, University of Ottawa, King Saud University ABDULMOTALEB EL SADDIK, University of Ottawa Interaction with the physical environment using mobile phones has become increasingly desirable and feasible. Nowadays mobile phones are being used to control different devices and access information/services related to those devices. To facilitate such interaction, devices are usually marked with RFID tags or visual markers, which are read by a mobile phone equipped with an integrated RFID reader or camera to fetch related information about those objects and initiate further actions. This article contributes in this domain of mobile physical interaction; however, using a spatial-geometric approach for interacting with indoor physical objects and artifacts instead of RFID based solutions. Using this approach, a mobile phone can point from a distance to an annotated object or a spatial subregion of that object for the purpose of interaction. The pointing direction and location is determined based on the fusion of IR camera and accelerometer data, where the IR cameras are used to calculate the 3D position of the mobile phone users and the

Journal

ACM Transactions on Multimedia Computing, Communications, and Applications (TOMCCAP)Association for Computing Machinery

Published: Nov 1, 2010

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