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The major interest for the video subgroup includes efficient
expression of digitized multimedia data and their applications.
From the generic problem of rate-distortion optimization to the
advanced computer vision based video encoding, diverse techniques
are covered by our researches. Other than the video encoding problems,
we are also interested in the robust behaviors of networked video and
application centric cross-layer optimization of video communications as well.
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Research Descriptions
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DCT-Domain Image Registration Techniques for Compressed Video
(
Ming-Sui Lee, Meiyin Shen, Akio Yoneyama, C. -C. Jay Kuo
)
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A DCT-Domain Video Alignment Technique for MPEG Sequences
(
Ming-Sui Lee, Meiyin Shen, C. -C. Jay Kuo
)
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A Quad-tree Decomposition Approach to Cartoon Image CompressionA Quad-tree Decomposition Approach to Cartoon Image Compression
(
Yi-Chen Tsai, Ming-Sui Lee, Meiyin Shen, C. -C. Jay Kuo
)
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Run-time Modeling and Estimation of Multimedia System Power Consumption
(
Yu Hu, Qing Li, C.-C. Jay Kuo
)
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Joint Rate-Distortion-Complexity Optimization For H.264 Motion Search
(
Yu Hu, Qing Li, Siwei Ma, C. -C. Jay Kuo
)
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Efficient Implementation of Elliptic Curve Cryptography (ECC) on VLIW-Micro-Architecture Media Processor
(
Yu Hu, Qing Li, Lei Huang, C. -C. Jay Kuo
)
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Error Resilient H.264 Video with SP/SI Coded Macroblocks
(
Xiaosong Zhou, Wei-ying Kung, C.-C. Jay Kuo
)
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Enhanced video stream switching schemes for H.264
(
Xiaosong Zhou, C.-C. Jay Kuo
)
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A Robust H.264 Video Streaming Scheme for Portable Devices
(
Xiaosong Zhou, Wei-ying Kung, C.-C. Jay Kuo
)
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Improved Error Resilient H.264 Coding Scheme Using SP/SI Macroblocks
(
Xiaosong Zhou, Wei-ying Kung,, C.-C. Jay Kuo
)
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Adaptive Multi-path Prediction for Error Resilient H.264 Coding
(
Xiaosong Zhou, C.-C. Jay Kuo
)
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Complexity modeling for context-based adaptive binary arithmetic coding (CABAC) in H.264/AVC decoder
(
Szu-Wei Lee, C.-C. Jay Kuo
)
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Complexity Modeling for Motion Compensation in H.264/AVC Decoder
(
Szu-Wei Lee, C.-C. Jay Kuo
)
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Motion compensation complexity model for decoder-friendly H.264 system design
(
Szu-Wei Lee, C.-C. Jay Kuo
)
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Complexity Modeling of H.264/AVC CAVLC/UVLC Entropy Decoders
(
Szu-Wei Lee, C.-C. Jay Kuo
)
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Complexity Modeling of Spatial and Temporal Compensations in H.264/AVC Decoding
(
Szu-Wei Lee, C.-C. Jay Kuo
)
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“Video Error Concealment with Outer and Inner Boundary Matching Algorithms,” Conference on Applications of Digital Image Processing, SPIE Optics and Photonics, San Diego, CA, USA, August 2007.
(
Tanaphol Thaipanich, Ping-Hao Wu, C.-C. Jay Kuo
)
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“Low-Complexity Mobile Video Error Concealment Using OBMA,” IEEE International Conference on Consumer Electronics (ICCE2008), Las, Vegas, NV, USA, January 2008.
(
Tanaphol Thaipanich, Ping-Hao Wu, C.-C. Jay Kuo
)
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“Low Complexity Video Error Concealment for Mobile Applications Using OBMA,” IEEE Transactions on Consumer Electronics, Vol. 54, Issue 2, May 2008, pp.753-761.
(
Tanaphol Thaipanich, Ping-Hao Wu, C.-C. Jay Kuo
)
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“Robust Video Frame Rate Up-Conversion (FRUC) Techniques,” IEEE International Conference on Consumer Electronics (ICCE2009), Las Vegas, NV, USA, January 2009.
(
Tanaphol Thaipanich, Ping-Hao Wu, C.-C. Jay Kuo
)
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“Low Complexity Algorithm for Robust Video Frame Rate Up-Conversion (FRUC) Technique,” IEEE Transactions on Consumer Electronics, Vol. 55, Issue 1, February 2009.
(
Tanaphol Thaipanich, Ping-Hao Wu, C.-C. Jay Kuo
)
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“Adaptive Nonlocal Means Algorithm for Image Denoising Application,” IEEE International Conference on Consumer Electronics (ICCE2010), Las, Vegas, NV, USA, January 2010.
(
Tanaphol Thaipanich, Ping-Hao Wu, C.-C. Jay Kuo
)
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“An Adaptive Nonlocal Means Scheme for Medical Image Denoising,” SPIE Medical Imaging, San Diego, CA, USA, February 2010.
(
Tanaphol Thaipanich, Ping-Hao Wu, C.-C. Jay Kuo
)
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Resume
(
Tanaphol Thaipanich
)
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