| Title |
Image Processing Based Time-Frequency Domain Reflectometry for Estimating the Fault Location Close to the Applied Signal Point |
| Authors |
정종민(Jeong, Jong Min) ; 이춘구(Lee, Chun Ku) ; 윤태성(Yoon, Tae Sung) ; 박진배(Park, Jin Bae) |
| DOI |
https://doi.org/10.5370/KIEE.2014.63.12.1683 |
| Keywords |
Fault localization ; Time-frequency domain reflectometry ; Image processing ; Wigner-Ville distribution ; Cross-term |
| Abstract |
In this paper, we propose an image processing based time-frequency domain reflectometry(TFDR) in order to estimate the fault location of a cable. The Wigner-Ville distribution is used for analysis in both the time domain and the frequency domain when the conventional TFDR estimates the fault location in a cable. However, the Winger-Ville distribution is a bi-linear function, and hence the cross-term is occurred. The conventional TFDR cannot estimate the accurate fault location due to the cross-term in case the fault location is close to the position where the reference signal is applied to the cable. The proposed method can reduce the cross-term effectively using binarization and morphological image processing, and can estimate the fault location more accurately using the template matching based cross correlation compared to the conventional TFDR. To prove the performance of the proposed method, the actual experiments are carried out in some cases. |