Presentation is loading. Please wait.

Presentation is loading. Please wait.

Applying 3-D Methods to Video for Compression Salih Burak Gokturk Anne Margot Fernandez Aaron March 13, 2002 EE 392J Project Presentation.

Published byAugustine Reeves Modified over 8 years ago

Similar presentations

Presentation on theme: "Applying 3-D Methods to Video for Compression Salih Burak Gokturk Anne Margot Fernandez Aaron March 13, 2002 EE 392J Project Presentation."— Presentation transcript:

1 Applying 3-D Methods to Video for Compression Salih Burak Gokturk Anne Margot Fernandez Aaron March 13, 2002 EE 392J Project Presentation

2 OUTLINE MOTIVATION PREVIOUS WORK ALGORITHMS RESULTS CONCLUSION

3 BACKGROUND Most common video compression scheme Blockwise transform (i.e. 2D-DCT) for spatial compression Blockwise Motion Estimation and Compensation for temporal redundancy Used in MPEG Motion Compensated Predictive Coding is better than Image based coding since it uses a good prediction from the previous frame.

4 OBJECTIVE How? Use 3-D Transformations and Methods. Exploit Temporal Redundancies MORE! Why?

5 3-D Transform Methods Good for ideal case – smooth motion, global motion Bad for non-uniform motion Need large number of frame stores

6 PREVIOUS WORK 3-D DCT for Video –Bauer and Sayood, Chan and Sui, Servais and de Jager 3-D Wavelets for Video – Pearlman et al., Taubman et al., Motion Compensated Coding

7 ALGORITHMS IN OUR EXPERIMENTS 1. 2D DCT 2. 3D DCT 3. (Block) Motion Compensated Coding 4. 3D (Volume) Motion Compensated Coding 5. Other Transformation as a prediction scheme (PCA, Wavelet)

8 2-D versus 3-D DCT 2-D Blocks versus 3-D Blocks 2-D DCT versus 3-D DCT When would 3-D DCT not work? Markov-1 chain P(X n =X n-1 ) = p X n uniform [0, 255]

9 3D Volume Motion Compensated Coding Current stack of frames Previous stack of frames Divide stack into volume blocks Find 3D motion vectors For each volume block… Calculate residual 3D DCT on residual Q depth

10 3D Volume Motion Compensated Coding Finding the motion vectors –Full Search –Measurement criterion MAD standard deviation of residual When it does not work –No smooth motion (acceleration present) –Cases when 2D MC does not work (occlusion, illumination, non-uniform motion) –Block size (depth) along time axis is too small or too big Centroid Effect : Center of the block usually has a better prediction than edges of the block.

11 Initial Prediction Results 2D MC Prediction3D MC Prediction

12 3D Principal Component Analysis Current stack of frames Divide each stack into volume blocks Find PCA Coefs For each volume block… Calculate residual 3D DCT on residual Q 1 – Apply PCA on a large collection of blocks 2 – Each Block is represented by a linear combination of principal components: = 11 + 22 + 33 + … = A = U  V T [ ] … U= [ ] …

13 Experimental Setup Techniques 1.2D DCT by 8x8 Blocks 2.3D DCT by 8x8x8 Blocks 3.Block Motion Compensated Coding (8x8 and 16x16 followed by 2-D DCT) 4.Volume Motion Compensated Coding (8x8x4, 8x8x6 and 8x8x8) followed by 3-D DCT. 5.Principal Component Analysis (use principal components of 8x8x8 blocks as prediction followed by 3-D DCT) Bit Rate vs PSNR Comparison DCT coefficients were quantized using a uniform quantizer PSNR was computed over the same support region. Bit rate was calculated by finding the theoretical entropy of the quantized DCT coefficients and motion vectors.

14 Miss Am

15 2D-DCT 2D-MC3D-DCT 3D-PCA3D-MC 0.14 bit/pixel

16 Salesman – 2D-MC vs 3D-MC 2D-MC 3D-MC 0.11 bit/pixel

17 Salesman – 3D-DCT vs 3D-MC 3D-DCT 3D-MC 0.16 bit/pixel

18 Foreman 2D-MC 3D-DCT 3D-MC 0.56 bit/pixel

19 Bus

20 CONCLUSION There is redundancy across temporal domain. There is a lot of room for improvement if we use 3-D compression methods! 2-D motion compensated coding is good for movies with A LOT of motion. When movements are smooth, 3-D methods will perform better than 2-D motion compensated coding. FUTURE WORK Find Better Residual Coding Schemes for 3D MC. (That deals with centroid effect better) Other 3D Methods ?

Download ppt "Applying 3-D Methods to Video for Compression Salih Burak Gokturk Anne Margot Fernandez Aaron March 13, 2002 EE 392J Project Presentation."

Similar presentations

INTERNATIONAL CONFERENCE ON TELECOMMUNICATIONS, 2009. ICT '09. TAREK OUNI WALID AYEDI MOHAMED ABID NATIONAL ENGINEERING SCHOOL OF SFAX New Low Complexity.

INTERNATIONAL CONFERENCE ON TELECOMMUNICATIONS, ICT '09. TAREK OUNI WALID AYEDI MOHAMED ABID NATIONAL ENGINEERING SCHOOL OF SFAX New Low Complexity.
Technion - IIT Dept. of Electrical Engineering Signal and Image Processing lab Transrating and Transcoding of Coded Video Signals David Malah Ran Bar-Sella.

Technion - IIT Dept. of Electrical Engineering Signal and Image Processing lab Transrating and Transcoding of Coded Video Signals David Malah Ran Bar-Sella.
MPEG-4 Objective Standardize algorithms for audiovisual coding in multimedia applications allowing for Interactivity High compression Scalability of audio.

MPEG-4 Objective Standardize algorithms for audiovisual coding in multimedia applications allowing for Interactivity High compression Scalability of audio.
Experimental study on scan order and motion compensation in lossless video coding Telematics/Network Engineering.

Experimental study on scan order and motion compensation in lossless video coding Telematics/Network Engineering.
A Region of Interest Approach For Medical Image Compression Salih Burak Gokturk Stanford University.

A Region of Interest Approach For Medical Image Compression Salih Burak Gokturk Stanford University.
{ Fast Disparity Estimation Using Spatio- temporal Correlation of Disparity Field for Multiview Video Coding Wei Zhu, Xiang Tian, Fan Zhou and Yaowu Chen.

{ Fast Disparity Estimation Using Spatio- temporal Correlation of Disparity Field for Multiview Video Coding Wei Zhu, Xiang Tian, Fan Zhou and Yaowu Chen.
Direction-Adaptive KLT for Image Compression Vinay Raj Hampapur Wendy Ni Stanford University March 8, 2011.

Direction-Adaptive KLT for Image Compression Vinay Raj Hampapur Wendy Ni Stanford University March 8, 2011.
Light Field Compression Using 2-D Warping and Block Matching Shinjini Kundu Anand Kamat Tarcar EE398A Final Project 1 EE398A - Compression of Light Fields.

Light Field Compression Using 2-D Warping and Block Matching Shinjini Kundu Anand Kamat Tarcar EE398A Final Project 1 EE398A - Compression of Light Fields.
Ljubomir Jovanov Aleksandra Piˇzurica Stefan Schulte Peter Schelkens Adrian Munteanu Etienne Kerre Wilfried Philips Combined Wavelet-Domain and Motion-Compensated.

Ljubomir Jovanov Aleksandra Piˇzurica Stefan Schulte Peter Schelkens Adrian Munteanu Etienne Kerre Wilfried Philips Combined Wavelet-Domain and Motion-Compensated.
International Conference on Image Analysis and Recognition (ICIAR’09). Halifax, Canada, 6-8 July 2009. Video Compression and Retrieval of Moving Object.

International Conference on Image Analysis and Recognition (ICIAR’09). Halifax, Canada, 6-8 July Video Compression and Retrieval of Moving Object.
Efficient multi-frame motion estimation algorithms for MPEG-4 AVC/JVTH.264 Mei-Juan Chen, Yi-Yen Chiang, Hung- Ju Li and Ming-Chieh Chi ISCAS 2004.

Efficient multi-frame motion estimation algorithms for MPEG-4 AVC/JVTH.264 Mei-Juan Chen, Yi-Yen Chiang, Hung- Ju Li and Ming-Chieh Chi ISCAS 2004.
Video Coding with Linear Compensation (VCLC) Arif Mahmood, Zartash Afzal Uzmi, Sohaib A Khan Department of Computer.

Video Coding with Linear Compensation (VCLC) Arif Mahmood, Zartash Afzal Uzmi, Sohaib A Khan Department of Computer.
Department of Computer Engineering University of California at Santa Cruz Video Compression Hai Tao.

Department of Computer Engineering University of California at Santa Cruz Video Compression Hai Tao.
A Coding Technique for the Contours in Smoothly Perfect Eight-Connectivity Based on Two-Stage Motion Compensation Sung Ho Cho, Rin Chul Kim, Seung Seok.

A Coding Technique for the Contours in Smoothly Perfect Eight-Connectivity Based on Two-Stage Motion Compensation Sung Ho Cho, Rin Chul Kim, Seung Seok.
H.264 / MPEG-4 Part 10 Nimrod Peleg March 2003.

H.264 / MPEG-4 Part 10 Nimrod Peleg March 2003.
Lecture06 Video Compression. Spatial Vs. Temporal Redundancy Image compression techniques exploit spatial redundancy, the phenomenon that picture contents.

Lecture06 Video Compression. Spatial Vs. Temporal Redundancy Image compression techniques exploit spatial redundancy, the phenomenon that picture contents.
Medical Image Compression EECE 541 Multimedia Systems Harjot Pooni Ashish Uthama Victor Sanchez.

Medical Image Compression EECE 541 Multimedia Systems Harjot Pooni Ashish Uthama Victor Sanchez.
Scalable Wavelet Video Coding Using Aliasing- Reduced Hierarchical Motion Compensation Xuguang Yang, Member, IEEE, and Kannan Ramchandran, Member, IEEE.

Scalable Wavelet Video Coding Using Aliasing- Reduced Hierarchical Motion Compensation Xuguang Yang, Member, IEEE, and Kannan Ramchandran, Member, IEEE.
Error Resilience in a Generic Compressed Video Stream Transmitted over a Wireless Channel Muhammad Bilal 2005-06-0020.

Error Resilience in a Generic Compressed Video Stream Transmitted over a Wireless Channel Muhammad Bilal
Transform Domain Distributed Video Coding. Outline  Another Approach  Side Information  Motion Compensation.

Transform Domain Distributed Video Coding. Outline  Another Approach  Side Information  Motion Compensation.

Similar presentations

Ads by Google