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Aerial Image Dehazing Using Reinforcement Learning

Jing Yu, Deying Liang, Bo Hang, Hongtao Gao

2022Remote Sensing15 citationsDOIOpen Access PDF

Abstract

Aerial observation is usually affected by the Earth’s atmosphere, especially when haze exists. Deep reinforcement learning was used in this study for dehazing. We first developed a clear–hazy aerial image dataset addressing various types of ground; we then compared the dehazing results of some state-of-the-art methods, including the classic dark channel prior, color attenuation prior, non-local image dehazing, multi-scale convolutional neural networks, DehazeNet, and all-in-one dehazing network. We extended the most suitable method, DehazeNet, to a multi-scale form and added it into a multi-agent deep reinforcement learning network called DRL_Dehaze. DRL_Dehaze was tested on several ground types and in situations with multiple haze scales. The results show that each pixel agent can automatically select the most suitable method in multi-scale haze situations and can produce a good dehazing result. Different ground scenes may best be processed using different steps.

Topics & Concepts

Computer scienceArtificial intelligenceReinforcement learningPixelHazeComputer visionScale (ratio)Image (mathematics)Convolutional neural networkPattern recognition (psychology)CartographyPhysicsGeographyMeteorologyImage Enhancement TechniquesVideo Surveillance and Tracking MethodsFire Detection and Safety Systems