Author(s): Cai, ZM (Cai, Ziming); Sun, L (Sun, Liang); An, BS (An, Baosheng); Zhong, X (Zhong, Xin); Yang, W (Yang, Wei); Wang, ZY (Wang, Zhongyan); Zhou, Y (Zhou, Yan); Zhan, F (Zhan, Feng); Wang, XW (Wang, Xinwei)
Source: SENSORS Volume: 23 Issue: 10 Article Number: 4714 DOI: 10.3390/s23104714 Published: MAY 12 2023
Abstract: Mountainous regions are prone to dammed lake disasters due to their rough topography, scant vegetation, and high summer rainfall. By measuring water level variation, monitoring systems can detect dammed lake events when mudslides block rivers or boost water level. Therefore, an automatic monitoring alarm method based on a hybrid segmentation algorithm is proposed. The algorithm uses the k-means clustering algorithm to segment the picture scene in the RGB color space and the region growing algorithm on the image green channel to select the river target from the segmented scene. The pixel water level variation is used to trigger an alarm for the dammed lake event after the water level has been retrieved. In the Yarlung Tsangpo River basin of the Tibet Autonomous Region of China, the proposed automatic lake monitoring system was installed. We pick up data from April to November 2021, during which the river experienced low, high, and low water levels. Unlike conventional region growing algorithms, the algorithm does not rely on engineering knowledge to pick seed point parameters. Using our method, the accuracy rate is 89.29% and the miss rate is 11.76%, which is 29.12% higher and 17.65% lower than the traditional region growing algorithm, respectively. The monitoring results indicate that the proposed method is a highly adaptable and accurate unmanned dammed lake monitoring system.
Accession Number: WOS:000997577500001
eISSN: 1424-8220