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In many scientific, medical, and defense applications of image/video compression, an [Symbol: see text]∞ error bound is required. However, pure[Symbol: see text]∞-optimized image coding, colloquially known as near-lossless image coding, is prone to structured errors such as contours and speckles if the bit rate is not sufficiently high; moreover, most of(More)
In many scientific, medical and defense applications of image/video compression, an &#x2113;<sub>&#x221E;</sub> error bound is required. However, pure &#x2113;<sub>&#x221E;</sub>-optimized image coding, colloquially known as near-lossless image coding, is prone to structured errors such as contours and speckles if the bit rate is not sufficiently high;(More)
In many scientific, medical, and defense applications of image/video compression, an l<sub>&#x221E;</sub> error bound is required. However, pure l<sub>&#x221E;</sub>-optimized image coding, colloquially known as near-lossless image coding, is prone to structured errors such as contours and speckles if the bit rate is not sufficiently high; moreover, most of(More)
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