Title :
High-Fidelity Image Compression for High-Throughput and Energy-Efficient Cameras
Author :
Wu, Xiaolin ; Zhou, Jiantao ; Wang, Heng
Author_Institution :
Dept. of Electr. & Comput. Eng., McMaster Univ., Hamilton, ON, Canada
Abstract :
We propose a new encoder-friendly image compression strategy for high-throughput cameras and other scenarios of resource-constrained encoders. The encoder performs ℓ∞-constrained predictive coding (DPCM coupled with uniform scalar quantizer), while the decoder solves an inverse problem of ℓ2 restoration of ℓ∞-coded images. Although designed for minimum encoder complexity, the new codec outperforms the state-of-the-art encoder-centralized image codecs such as JPEG 2000 in PSNR for bit rates higher than 1.2 bpp, while maintaining much tighter ℓ∞ error bounds as well. This is achieved through exploiting the tight error bound on each pixel naturally offered by the ℓ∞-constrained encoder and by locally adaptive image modeling.
Keywords :
cameras; data compression; image coding; image restoration; ℓ∞-constrained predictive coding; JPEG 2000; energy-efficient cameras; high-fidelity image compression; image codecs; image restoration; locally adaptive image modeling; resource-constrained encoders; tight error bound; uniform scalar quantizer; Adaptation model; Cameras; Computational modeling; Decoding; Image coding; Image restoration; Pixel; Near-lossless image coding; high-throughput cameras; image restoration; resource-deprived encoder; sparse representation;
Conference_Titel :
Data Compression Conference (DCC), 2011
Conference_Location :
Snowbird, UT
Print_ISBN :
978-1-61284-279-0
DOI :
10.1109/DCC.2011.50
