Adaptive foveation of MPEG video
MULTIMEDIA '96 Proceedings of the fourth ACM international conference on Multimedia
IEEE/ACM Transactions on Networking (TON)
Foveation-Based Error Resilience and Unequal Error Protection over Mobile Networks
Journal of VLSI Signal Processing Systems
Foveated video quality assessment
IEEE Transactions on Multimedia
Rayleigh fading channels in mobile digital communication systems .I. Characterization
IEEE Communications Magazine
Rayleigh fading channels in mobile digital communication systems .II. Mitigation
IEEE Communications Magazine
Object-oriented H.263 compatible video coding platform for conferencing applications
IEEE Journal on Selected Areas in Communications
Capturing important statistics of a fading/shadowing channel for network performance analysis
IEEE Journal on Selected Areas in Communications
Foveated video compression with optimal rate control
IEEE Transactions on Image Processing
Foveation scalable video coding with automatic fixation selection
IEEE Transactions on Image Processing
Low bit-rate video transmission over fading channels for wireless microcellular systems
IEEE Transactions on Circuits and Systems for Video Technology
Rate control in DCT video coding for low-delay communications
IEEE Transactions on Circuits and Systems for Video Technology
Fast algorithms for foveated video processing
IEEE Transactions on Circuits and Systems for Video Technology
Visual pattern image sequence coding
IEEE Transactions on Circuits and Systems for Video Technology
Foveation-Based Error Resilience and Unequal Error Protection over Mobile Networks
Journal of VLSI Signal Processing Systems
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Foveated video streams are created by selectively varying the spatio-temporal resolution of video data according to the assumed or measured fixation patterns of the intended viewers. The significant potential of foveated video lies in the considerable entropy reduction relative to the original video data while minimizing the loss of apparent visual information. By exploiting new human-machine interface techniques, such as visual eyetrackers, combined with foveated video compression and communication protocols, more efficient visual multimedia services operating over low bandwidths should become available in the near future. In this paper, we introduce a prototype foveated visual communication system suitable for implementation as a core element of an interactive multimedia wireless communication environment. We demonstrate the benefit of using foveation in noisy wireless low bandwidth applications, using measured fading statistics from the downtown area of Austin, Texas as an example. Based on a maximum source throughput criterion, the source and channel video transmission rates and the target video coding bit rate are adaptively decided according to the channel dynamics. In the simulations, we use the channel throughput, the spatial/temporal resolution, and the transmission delay as criteria to compare the performance of the foveated approach relative to normal (non-foveated) video. The results clearly underline the significant potential of foveated video communication protocols for wireless multimedia applications.