Iceberg Detection in Dual-Polarized C-Band SAR Imagery by Segmentation and Nonparametric CFAR (SnP-CFAR)

Juha Karvonen,Tuomas Niskanen,Alexandru Gegiuc,Anni Montonen,Eero Rinne,Jorgen Buus-Hinkler

doi:10.1109/tgrs.2021.3070312

Juha Karvonen, Tuomas Niskanen + Show 4 more

Open Access

https://doi.org/10.1109/tgrs.2021.3070312

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Abstract

We propose an unsupervised method for iceberg detection over sea ice-free waters. The algorithm is based on the segmentation and nonparametric constant false alarm rate (SnP-CFAR) approach. Unlike in parametric CFAR detection, in our method, there is no need to define target, guard, and background areas explicitly. Instead, we apply the CFAR detection to the pixels within each detected segment and the background is formed of the nearby pixels not included in the target segment. By using nonparametric background probability density function (PDF) estimates, we also eliminate the need of assuming a specific type of a background PDF. We compared the detection results with the operational Danish Meteorological Institute (DMI) Gamma-CFAR algorithm results. The results were evaluated against icebergs manually identified by the Finnish Meteorological Institute (FMI) Ice analysts. Our method also exhibits a reduced number of false alarms. We present results of iceberg detection based on the SAR channel-cross-correlation (CCC). CCC was able to distinguish many of the true targets with a low number of false alarms. However, CCC seems to miss some of the true targets and its main use would be in confirming iceberg observations.

Highlights

D URING summer, ice-covered seas in the Arctic region are gradually opening, freeing trapped Icebergs, and ice floes into the open sea
We studied the use of CCC instead of SAR backscattering in constant false alarm rate (CFAR) to reduce the number of false alarms in the iceberg detection
The number of TP targets is in agreement between the Gamma-CFAR and SnP-CFAR, with a total of 1805 and 1739, correctly detected targets

Summary

Introduction

D URING summer, ice-covered seas in the Arctic region are gradually opening, freeing trapped Icebergs, and ice floes into the open sea. New icebergs are calved from active glaciers. Greenland glaciers reach up to 30 000 calvings per year [1]. Icebergs pose a significant risk to navigation and off-shore activities, if not detected in time. Manuscript received June 2, 2020; revised October 1, 2020, February 13, 2021, and March 26, 2021; accepted March 28, 2021.

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