Abstract
Detecting objects in synthetic aperture radar (SAR) imagery has received much attention in recent years since SAR can operate in all-weather and day-and-night conditions. Due to the prosperity and development of convolutional neural networks (CNNs), many previous methodologies have been proposed for SAR object detection. In spite of the advance, existing detection networks still have limitations in boosting detection performance because of inherently noisy characteristics in SAR imagery; hence, separate preprocessing step such as denoising (despeckling) is required before utilizing the SAR images for deep learning. However, inappropriate denoising techniques might cause detailed information loss and even proper denoising methods does not always guarantee performance improvement. In this paper, we therefore propose a novel object detection framework that combines unsupervised denoising network into traditional two-stage detection network and leverages a strategy for fusing region proposals extracted from both raw SAR image and synthetically denoised SAR image. Extensive experiments validate the effectiveness of our framework on our own object detection datasets constructed with remote sensing images from TerraSAR-X and COSMO-SkyMed satellites. Extensive experiments validate the effectiveness of our framework on our own object detection datasets constructed with remote sensing images from TerraSAR-X and COSMO-SkyMed satellites. The proposed framework shows better performances when we compared the model with using only noisy SAR images and only denoised SAR images after despeckling under multiple backbone networks.
Highlights
Synthetic Aperture Radar (SAR) is a type of radar system used to reconstruct 2D or 3D terrain and objects on the ground
The raw scenes go through multiple stages like preprocessing, Doppler centroid estimation (DCE), and focusing to obtain single look slant range complex (SSC) images
The SSC images are converted to multi-look ground range detected (MGD) images by multi-looking procedures
Summary
Synthetic Aperture Radar (SAR) is a type of radar system used to reconstruct 2D or 3D terrain and objects on the ground (or over oceans). The SAR system utilizes a technology to synthesize a long virtual aperture through a coherent combination of the received signals from objects. The synthesized aperture transmits pulses of microwave radiation, which in turn has the effect of narrowing the effective beam width in an azimuth direction and achieving high resolution. Combining return signals by an on-board radar antenna, SAR overcomes the main limitations of traditional systems that the azimuth resolution is determined by physical antenna size. Optical and infrared sensors are passive since they detect objects by reflected light and emitted signals from the objects, respectively, while the radars can actively transmit and receive radar waves, operating in all-weather and day-and-night conditions. It is necessary to study on object detection using radar imagery for civilian applications (e.g., resources exploration, environmental monitoring, etc.)
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