posted on 2011-07-13, 09:32authored byKhalil Arshak, Francis Adepoju
In this paper, we discuss system and method of
determining the real-time location of an omni-directional diagnostic radio frequency (RF) system while the object (transmitter) is moving freely inside an inaccessible organ. A specific application to the human gastrointestinal (GI) organ is presented, showing the importance of the method in accessing a specific site for drug administration or for extracting fluid or
tissue samples for biopsy and similar medical investigations. For practical purposes, omnidirectional antenna on the transmitter at
433MHz, normalized transmitter power 1W was modeled for simplicity, and Es/No = 20dB (corresponding to the linear region of the target transceiver). A brief discussion of how the original analogue signals, after conversion to voltage, was adapted for position tracking. In the tracking algorithm, we employed a path
loss scenario based on the popular log-normal model to simulate the effects of organs on signal quality between transmitter and receiver at various distances.