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The authors propose a new and efficient method for transmission estimation with bright\u2010object handling capability. Based on the intensity value of a bright surface, they categorise DCP failures into two types: (i) obvious failure: occurs on surfaces that are brighter than ambient light. They show that, for these surfaces, altering the transmission value proportional to the brightness is better than the thresholding strategy; (ii) non\u2010obvious failure: occurs on surfaces that are brighter than the neighbourhood average haziness value. Based on the observation that the transmission of a surface is loosely connected to its neighbours, the local average haziness value is used to recompute the transmission of such surfaces. This twofold strategy produces a better estimate of block and pixel\u2010level haze thickness than DCP. To reduce haloes, a reliability map of block\u2010level haze is generated. Then, via reliability\u2010guided fusion of block\u2010 and pixel\u2010level haze values, a high\u2010quality refined transmission is obtained. Experimental results show that the authors\u2019 method competes well with state\u2010of\u2010the\u2010art methods in typical benchmark images while outperforming these methods in more challenging scenarios. 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