Precision of EM Simulation Based Wireless Location Estimation in Multi-Sensor Capsule Endoscopy

• Main Authors: Umair Khan, Yunxing Ye, Ain-Ul Aisha, Pranay Swar, Kaveh Pahlavan
• Format: Article
• Language: English
• Published: IEEE 2018-01-01
• Series: IEEE Journal of Translational Engineering in Health and Medicine
• Subjects: Endoscopy pill; TOA location limits; bounds; 3D; two-way location; signal probability
• Online Access: https://ieeexplore.ieee.org/document/8322190/

In this paper, we compute and examine two-way localization limits for an RF endoscopy pill as it passes through an individuals gastrointestinal (GI) tract. We obtain finite-difference time-domain and finite element method-based simulation results position assessment employing time of arrival (TOA). By means of a 3-D human body representation from a full-wave simulation software and lognormal models for TOA propagation from implant organs to body surface, we calculate bounds on location estimators in three digestive organs: stomach, small intestine, and large intestine. We present an investigation of the causes influencing localization precision, consisting of a range of organ properties; peripheral sensor array arrangements, number of pills in cooperation, and the random variations in transmit power of sensor nodes. We also perform a localization precision investigation for the situation where the transmission signal of the antenna is arbitrary with a known probability distribution. The computational solver outcome shows that the number of receiver antennas on the exterior of the body has higher impact on the precision of the location than the amount of capsules in collaboration within the GI region. The large intestine is influenced the most by the transmitter power probability distribution.