Recognizing the Shape and Size of Tundra Lakes in Synthetic Aperture Radar (SAR) Images Using Deep Learning Segmentation
Journal article, 2023

Permafrost tundra contains more than twice as much carbon as is currently in the atmosphere, and it is warming six times as fast as the global mean. Tundra lakes dynamics is a robust indicator of global climate processes, and is still not well understood. Satellite data, particularly, from synthetic aperture radar (SAR) is a suitable tool for tundra lakes recognition and monitoring of their changes. However, manual analysis of lake boundaries can be slow and inefficient; therefore, reliable automated algorithms are required. To address this issue, we propose a two-stage approach, comprising instance deep-learning-based segmentation by U-Net, followed by semantic segmentation based on a watershed algorithm for separating touching and overlapping lakes. Implementation of this concept is essential for accurate sizes and shapes estimation of an individual lake. Here, we evaluated the performance of the proposed approach on lakes, manually extracted from tens of C-band SAR images from Sentinel-1, which were collected in the Yamal Peninsula and Alaska areas in the summer months of 2015–2022. An accuracy of 0.73, in terms of the Jaccard similarity index, was achieved. The lake’s perimeter, area and fractal sizes were estimated, based on the algorithm framework output from hundreds of SAR images. It was recognized as lognormal distributed. The evaluation of the results indicated the efficiency of the proposed approach for accurate automatic estimation of tundra lake shapes and sizes, and its potential to be used for further studies on tundra lake dynamics, in the context of global climate change, aimed at revealing new factors that could cause the planet to warm or cool.

tundra lakes

synthetic aperture radar

Sentinel-1

U-Net

size distribution

climate

Arctic

Author

Denis Demchev

Chalmers, Space, Earth and Environment, Geoscience and Remote Sensing

Ivan Sudakow

Open University

Alexander Khodos

The Center for Research and Invention

Irina Abramova

Arctic and Antarctic Research Institute

Dmitry Lyakhov

King Abdullah University of Science and Technology (KAUST)

Dominik Michels

King Abdullah University of Science and Technology (KAUST)

Remote Sensing

20724292 (eISSN)

Vol. 15 5 1298

Subject Categories

Physical Geography

Computer Vision and Robotics (Autonomous Systems)

Medical Image Processing

DOI

10.3390/rs15051298

More information

Latest update

3/28/2023