JPEG 2000: Image Compression Fundamentals, Standards and Practice
JPEG 2000: Image Compression Fundamentals, Standards and Practice
QoS- based JPEG images transmission protocol for wireless CDMA communication systems
WMuNeP '05 Proceedings of the 1st ACM workshop on Wireless multimedia networking and performance modeling
Robust transmission of JPEG2000 images over noisy channels
IEEE Transactions on Consumer Electronics
JPEG 2000 backward compatible error protection with Reed-Solomon codes
IEEE Transactions on Consumer Electronics
JPEG2000 and MJPEG2000 transmission in 802.11 wireless local area networks
IEEE Transactions on Consumer Electronics
IEEE Transactions on Consumer Electronics
IEEE Journal on Selected Areas in Communications
Progressive transmission of images over memoryless noisy channels
IEEE Journal on Selected Areas in Communications
Arithmetic coding-based continuous error detection for efficient ARQ-based image transmission
IEEE Journal on Selected Areas in Communications
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JPEG 2000 stands out among the image compression standards as its facilities to provide tools for error-resilience and compression efficiency and image quality. However, these tools cannot correct transmission errors, they can only detect the error, conceal it, and resynchronize the decoder. Therefore, they are not efficient in wireless scenarios. Recently, JPEG 2000 has been extended to support efficient transmissions of JPEG 2000 compressed images over an error-prone wireless network. Though, error protection and correction in wireless image transmission is still a key problem for the multimedia community. In this paper, we propose a joint dynamic error detection for JPEG 2000 encoded image transmission in order to obtain more effective wireless throughput of compressed images. We define an extended code structure to perform joint encoding for transmitters and propose a novel joint error dynamic detection scheme for receivers. An extensive set of simulations was carried out in order to evaluate and demonstrate the performance of our solution, with the proposed method applied to practical CDMA communication systems.