Abstract
Wireless capsule endoscopes take and send photos of the human digestive tract, which are used for medical diagnosis. The capsule’s location enables exact identification of the regions with lesions. This can be carried out by analyzing the parameters of the electromagnetic wave received from the capsule. Because the human body is a complex heterogeneous environment that impacts the propagation of wireless signals, determining the distance between the transmitter and the receiver based on the received power level is challenging. An enhanced approach of identifying the location of endoscope capsules using a wireless signal phase detection algorithm is presented in this paper. For each capsule position, this technique uses adaptive estimation of human body model permittivity. This approach was tested using computer simulations in Remcom XFdtd software using a numerical, heterogeneous human body model, as well as measurements with physical phantom. The type of transmitting antenna employed in the capsule also has a significant impact on the suggested localization method’s accuracy. As a result, the helical antenna, which is smaller than the dipole, was chosen as the signal’s source. For both the numerical and physical phantom studies, the proposed technique with adaptive body model enhances localization accuracy by roughly 30%.
Highlights
Diagnosis of the gastrointestinal tract can be performed with the use of capsule endoscopes, which provide doctors with a lot of valuable information
The verification in the first step was based on data gathered as from the computer simulation, whereas the data in the second stage came from measurements performed with simplified physical phantom
Computer simulations were obtained with Remcom XFdtd software version 7.8.1 [22] with the use of NMR heterogenous human body model with a 5 mm voxel size available in this tool
Summary
Diagnosis of the gastrointestinal tract can be performed with the use of capsule endoscopes, which provide doctors with a lot of valuable information. Such capsules are fitted with tiny cameras that allow them to detect anatomical changes without causing any discomfort to the patient. When using such endoscopes for medical examinations, the picture delivered from the capsule must be complemented by information regarding its precise location. Many methods for locating endoscopic capsules have been presented [1–17], with the following approaches standing out: analysis of the picture captured by the endoscopic capsule [1–6], analysis of the electromagnetic field [7–17] and analysis and tracking of capsule movement using inertial sensors [4,14]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
