High efficiency video coding for ultrasound video communication in m-health systems
High efficiency video coding for ultrasound video communication in m-health systems
Emerging high efficiency video compression methods and wider availability of wireless network infrastructure will significantly advance existing m-health applications. For medical video communications, the emerging video compression and network standards support low-delay and high-resolution video transmission, at the clinically acquired resolution and frame rates. Such advances are expected to further promote the adoption of m-health systems for remote diagnosis and emergency incidents in daily clinical practice. This paper compares the performance of the emerging high efficiency video coding (HEVC) standard to the current state-of-the-art H.264/AVC standard. The experimental evaluation, based on five atherosclerotic plaque ultrasound videos encoded at QCIF, CIF, and 4CIF resolutions demonstrates that 50% reductions in bitrate requirements is possible for equivalent clinical quality.
- University of New Mexico United States
- Imperial College London United Kingdom
- University of Cyprus Cyprus
Network standards, Image compression, Experimental evaluation, Video Recording, Efficiency, Medical video, Compression methods, information processing, Video communications, Diagnosis, Low delay, Image Interpretation, Computer-Assisted, Video transmissions, Ultrasonics, High resolution, Image communication systems, signal processing, Remote diagnosis, Ultrasonography, Atherosclerotic plaque, algorithm, Bit rates, videorecording, Motion Picture Experts Group standards, article, echography, Image coding, Network infrastructure, Frame rate, methodology, computer assisted diagnosis, H.264/AVC standards, Signal Processing, Computer-Assisted, Data Compression, Telemedicine, Video signal processing, mHealth, Clinical practices, telemedicine, Algorithms
Network standards, Image compression, Experimental evaluation, Video Recording, Efficiency, Medical video, Compression methods, information processing, Video communications, Diagnosis, Low delay, Image Interpretation, Computer-Assisted, Video transmissions, Ultrasonics, High resolution, Image communication systems, signal processing, Remote diagnosis, Ultrasonography, Atherosclerotic plaque, algorithm, Bit rates, videorecording, Motion Picture Experts Group standards, article, echography, Image coding, Network infrastructure, Frame rate, methodology, computer assisted diagnosis, H.264/AVC standards, Signal Processing, Computer-Assisted, Data Compression, Telemedicine, Video signal processing, mHealth, Clinical practices, telemedicine, Algorithms
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