@inproceedings{05de15edb8924b9ab126bb96bd012d8d,
title = "Multiple LEDs luminous system in capsule endoscope",
abstract = "Developing the luminous system in a capsule endoscope, it is difficult to obtain an uniform illumination[1] on the observed object because of several reasons: the light pattern of LED is sensitively depend on the driving current, location and projective angles; the optical path of LED light source is not parallel to the optical axis of the nearby imaging lenses; the strong reflection from the inner surface of the dome may saturate the CMOS sensors; the object plane of the observed intestine is not flat. Those reasons induce the over-blooming and deep-dark contrast in a picture and distort the original image strongly. The purpose of the article is to construct a photometric model to analyze the LED projection light pattern, and, furthermore, design a novel multiple LEDs luminous system for obtaining an uniform-brightness image. Several key parameters resulting as illumination uniformity has been taken under the model consideration and proven by experimental results. Those parameters include LED light pattern accuracy, choosing LED position relative to the imaging optical axis, LED numbers, arrangement, and the inner curvature of the dome. The novel structure improves the uniformity from 41% to 71% and reduces the light energy loss under 2%. The progress will help medical professionals to diagnose diseases and give treatment precisely based on the vivid image.",
keywords = "Capsule endoscope, Multiple LEDs luminous system, Uniformity",
author = "Yang-Mang Ou and Huang, {Shih Wei} and Lee, {Hsin Hung} and Chen, {Yung Lin} and Huang, {Ko Chih} and Kuo, {Yi Ting}",
year = "2007",
doi = "10.1117/12.699763",
language = "English",
isbn = "0819465437",
series = "Progress in Biomedical Optics and Imaging - Proceedings of SPIE",
booktitle = "Advanced Biomedical and Clinical Diagnostic Systems V",
note = "Advanced Biomedical and Clinical Diagnostic Systems V ; Conference date: 21-01-2007 Through 27-01-2007",
}