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Deep Convolutional Autoencoder Applied for Noise Reduction in Range-Doppler Maps of FMCW Radars

Marcio L. Lima de Oliveira, Marco J.G. Bekooij

202045 citationsDOIOpen Access PDF

Abstract

In this paper, we discuss the usage of deep Convolutional Autoencoders (CAE) for denoising Range-Doppler (RD) maps of an FMCW radar in a near-field situation with pedestrians and cyclists as moving objects. Traditional methods for noise reduction such as CFAR with Peak Detection (PD) have poor performance under highly noisy environments, especially when objects have low reflectivity, like pedestrians. We propose the use of Convolutional Autoencoders, in various configurations, to overcome those limitations. Due to its Artificial Neural Network nature, CAE can extract features, learn to identify patterns and recognize moving objects - such as humans and bicycles - while the traditional method acts passively. The results indicate that the usage of CAE overcame CFAR with PD by 76.8%, on average, for reconstructing objects in their correct positions. The results of this work may have many applications, for instance, detecting distant moving objects that are too faint for regular detection.

Topics & Concepts

AutoencoderComputer scienceArtificial intelligenceConvolutional neural networkNoise reductionDoppler radarRadarNoise (video)Continuous-wave radarComputer visionDeep learningObject detectionReduction (mathematics)Doppler effectPattern recognition (psychology)Radar imagingRemote sensingTelecommunicationsGeographyImage (mathematics)MathematicsAstronomyPhysicsGeometryUnderwater Acoustics ResearchAdvanced SAR Imaging TechniquesGait Recognition and Analysis