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http://dx.doi.org/10.5369/JSST.2003.12.6.249

The Method for 3-D Localization of Implantable Miniaturized Telemetry Module by Analysis of Nonlinear Differential Equations  

Park, J.C. (Dept. of Sensors Technology)
Nam, H.W. (School of Electrical Engineering and Computer Science)
Park, H.J. (School of Electrical Engineering and Computer Science)
Song, B.S. (Advanced Research Center for Recovery of Human Sensibility, Kyungpook National University)
Won, C.H. (School of Computer Control and Electrical Engineering, Kyungil University)
Lee, S.H. (School of Electrical Engineering and Computer Science)
Choi, H.C. (School of Electrical Engineering and Computer Science)
Cho, J.H. (School of Electrical Engineering and Computer Science)
Publication Information
Journal of Sensor Science and Technology / v.12, no.6, 2003 , pp. 249-257 More about this Journal
Abstract
The bio-telemetry technologies, that use the wireless miniaturized telemetry module implanted in the human body and transmits several biomedical signal from inside to outside of the body, have been expected to solve the problem such as the patient's inconvenience and the limit for diagnosis. In the case of transceiver system using the wireless RF transmission method, the method of three-dimensional localization for implantable miniaturized telemetry module is necessary to detect the exact position of disease. A new method for three-dimensional localization using small loop antenna in the implantable miniaturized telemetry module was proposed in this paper. We proposed a method that can accurately determine the position of telemetry module by analyzing the differences in the strength of signal, which is received at each of the small size RF receiver array installed on the body surface.
Keywords
bio-telemetry; localization; nonlinear differential equations.;
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