Text Box: One Microsoft Way, 99/2942
Redmond, WA 98052, USA
Email: jinl@microsoft.com
Jin Li


Career Highlights

Principal Researcher, Microsoft Research, Redmond, WA.

Manager of Multimedia Communication and Storage team

Gold Star service award x4, Microsoft(Microsoft Gold Star rewards distinguished service from non-executive level Microsoft employees.)

(1999: for contribution in founding Microsoft Research Asia.

2001: for contribution to scalable audio compression.

2006: for contribution to P2P VoD and P2P folder sharing

2010: for contribution to Deduplication in Windows Server. )

Microsoft Member Bench Program, 2007.

Extensive contribution to a wide array of Microsoft Products: WMA9 Lossless (Reversible Transform), Live Messenger (NAT traversal, sharing folder), Live Mesh (NAT traversal), Windows 7 (Teredo NAT traversal), Lync (Bandwidth Estimation & Management, Media Gateway, DiffServ, QoS monitoring), Windows 8 (Remote Desktop, Branch Cache), Windows 8 server (Data Deduplication), Azure (Erasure Coding based Storage), Bing (Global Traffic Management), Xbox Live (Low Delay Message Protocol).

Extensive contribution to multimedia compression standard: JPEG 2000 (sub-bitplane scanning and rate-distortion optimization, visual weighting and progressive visual coding, JPEG Interactive Protocol), MPEG 4 (arbitrary shape wavelet transform), H.264 SVC (motion compensated temporal filtering).

42 issued US patents.

IEEE ComSoc Distinguished Lecturer, 2011-2012.

Extensive Community Service and Organization Committee Involvement

    GLOBECOM 2010 Outstanding Leadership award.

    ICCCN 2008 Outstanding Leadership award.

    ICME 2010 Lead Program Chair.

    Packet Video Workshop 2009 (PV 2009) General Chair.

    ICCCN 2011 Associate General Chair.

    ACM MM 2011 Workshop Chair.

    Other Organization Committee Position: GLOBECOM 2010, CCNC 2011, MMSP 2009, ICCCN 2008, ICCCN 2009.

Associate Editor/Guest Editor: IEEE Trans. On Multimedia, Journal of Selected Area of Communication, Journal of Visual Communication and Image Representation, P2P networking and applications, Journal of Communications  

H-index: 23 (H-index without merging highly cited patent/technical report: 24)

Citation count of top 5 cited paper: 224, 145, 95, 62, 61

Publication: 20 journal papers, 2 book chapter, 96 conference papers.

Ph.D. with honor in Electrical Engineering, Tsinghua University, 1994.

Tsinghua Ten Stars (an honorary title of Tsinghua University), 1991.

Recipient of Young Investigator Award from Visual Communication and Image Processing’98 by SPIE/IS&T, 1998.

Best paper award, ICME 2009.

Affiliated Professor, Tsinghua University


 


Education

Mar. 1991 - Jun. 1994   Tsinghua University                      Beijing, China

Ph.D. in Electrical Engineering, graduated with honor

Thesis advisor: Prof. Xinggang Lin and Prof. Youshou Wu

Sep. 1990 - Mar. 1991   Tsinghua University                      Beijing, China

M.S. in Electrical Engineering, graduated with honor

Thesis advisor: Prof. Rensheng Liu

Sep. 1987 - Sep. 1990    Tsinghua University                      Beijing, China

B.S. in Electrical Engineering, graduated with honor

(Complete 5 year undergraduate program with only 3 years.)

 

Honors and Awards

 

Gold Star service award x4 (1999, 2001, 2006, 2010), Microsoft

Microsoft Member Bench Program, 2007

Best paper award, ICME 2009.

The Young Investigator Award from SPIE/IS&T, 1998 (for Visual Communication and Image Processing)

The Best Ph.D. Thesis Award, Tsinghua University, 1994 (10% of Ph.D. graduates)

“Tsinghua Ten Stars” (An honorary title of Tsinghua University, elected by all Tsinghua students every 5 years)

Various prestigious scholarships of Tsinghua Univ. during year 1987-1994,  such as the Supreme Guanghua Scholarship(1993), the Supreme Scholarship of Tsinghua (1991), the Best M.S. Thesis Award (1991), etc..

Championship of National Youth Computer Programming Competition, China, 1987.

Professional memberships & activities

 

Senior member of IEEE

Member of ACM

Associate Editor/Guest Editor: IEEE Trans. On Multimedia, Journal of Selected Area of Communication, Journal of Visual Communication and Image Representation, P2P networking and applications, Journal of Communications 

.

Professional experience

2001.1 – Current           Microsoft Research                        Redmond, WA

Principal Researcher and manager of the Multimedia Communication and Storage bubble.

Multimedia content delivery: P2P VoD and hybrid P2P-CDN, CDN traffic management, Symmetric NAT traversal

Real-time communication: low delay data streaming protocol, low delay message delivery protocol, learning based universal bandwidth management, QoS monitoring and diagnostics

Media storage: erasure coding based storage solution, data deduplication, multi-tier storage architecture with SSD

Scalable audio/image/video codecs.

1999.4 – 2000.12          Microsoft Research Asia                 Beijing, China

Researcher/Project Leader (Internet Media)

Graphic compression algorithm, e.g., texture coder, geometry compression.

Developed Vmedia, a protocol for interactive transmission of scalable coded JPEG 2000 images over the Internet. The protocol breaks scalable coded JPEG 2000 image into small pieces, and stream the pieces over the Internet according to the resolution, and the region that the user is viewing the image. It initiated the JPEG Interactive Protocol (JPIP) standards activity, which became part 9 of the JPEG 2000 suite of standards.

Developed compression and streaming algorithms for image based rendering scene, enable a 3D scene to be interactively streamed. The works pioneer multiview video coding and depth plus color video coding long before H.264/MVC investigated the coding of multi-view video.

Developed a video object wavelet (VOW) coder which beats MPEG-4 wavelet mode by 0.65dB

 

1996.11 – 1999.4   Sharp Laboratories of America     Camas, WA

Member of Technical Staff  (Digital Video Department)

Heavily engaged in MPEG4 and JPEG2000 standard activity

Developed a rate-distortion optimized embedded coder (RDE). This is the definitive work that established the methodology to achieve operational rate-distortion optimality in scalable media coding with sub-bitplane coding.  The key insight is that going beyond bitplane scanning (which separates bits in the same bitplane into significance bits and refinement bits) can provide significant coding gain in scalable coding by sequencing the bits in the correct order according to their rate distortion performance. It is a fundamental technology adopted by the ISO JPEG 2000 image coding standard.

Proposed visual weighting and visual progressive coding technologies. Both are adopted by JPEG 2000.

Developed arbitrary shape wavelet transform. The work was adopted for wavelet coding of a non-rectangular object in MPEG4.

Investigated the removal of blocky and ringing artifact of coded image with multiscale post-processing and Markov random field model.

Supported Sharp product for image/data compression and communication

1994.8 – 1996.11          University of Southern California     Los Angeles, CA

Research Associate (Integrated Media Systems Center)

Various image/video coding techniques, e.g., hybrid fractal wavelet coder, wavelet packet image coder, multiwavelet transform and vector wavelet coding, layered DCT coder, scalable wavelet video compression, wavelet based automatic target recognition system, and pattern recognition on compressed image/video

1991.3 – 1994.8            Tsinghua University                      Beijing, China

Research Assistant (Department of Electrical Engineering)

Various image/video coding techniques, e.g., variable block size low bit rate video coding, hybrid DCT/binary image coding.

Implemented JPEG/MPEG1/JBIG

Implemented a low cost still/moving video displaying system on the MS DOS, and an image format converter among TIFF, GIF, PCX, GEM/IMG

1990.9 – 1991.3            Tsinghua University                      Beijing, China

Teaching Assistant, Research Assistant (Department of Electrical Engineering)

Ported the X window system to SCO Unix 2.3.2

Developer of a computer aided manufacturing system for Wu-Xi Lian Zhi Textile factory

1987.9 – 1990.9            Tsinghua University                      Beijing, China

Extracurricular activity

Built an embedded data collector for power company

Developed an automatic account balancing system

Built a VGT-100 terminal simulator on MS-DOS

1983 – 1987.7               EFZ high school                         Shanghai, China

Extracurricular activity

Developed a piracy protection software for Apple-II

Built a computer aided education system for high school chemistry class

Developed a supply chain management system for Daqing Oil Inc

Built a computer aided test system for UHF TV tuner

 

Patents Issued

[1]   J. Li and S. Lei, “Arbitrary shape wavelet transform with phase alignment”, US 6,233,357. [Provisional filed Jul. 14, 1997, US1997000052450, Issued May. 15, 2001]

[2]   J. Li, “Method of visual progressive coding”, US6,327,392, [Filed Jan. 28, 1999, Issued Dec. 4, 2001]

[3]   J. Li and S. Lei, “Quad-tree embedded image compression and decompression method and apparatus”, US6,356,665, [Filed Dec. 9, 1998, Issued Mar. 12, 2002]

[4]   J. Li and S. Lei, “Dynamic management of embedded coded images in a digital storage device”, US6,463,177, [Filed Nov. 4, 1998, Issued Oct. 8, 2002]

[5]   W. Zeng, S. Lei and J. Li, “Re-indexing for efficient compression of palettized images”, US6,522,783, [Filed Nov. 23, 1999, Issued Feb. 18, 2003]

[6]   W. Zeng, J. Li, and S. Lei, “Joint coding method for images and videos with multiple arbitrarily shaped segments or objects”, US6,553,148, [Filed May. 21, 2001, Issued Apr. 22, 2003]

[7]   J. Li, Y. Zhang, Y. Wu and L. Luo, “Methods and arrangements for compressing image-based rendering (IBR) data using alignment and 3D wavelet transform techniques”, US6,567,081, [Filed Jun. 20, 2001, Issued May. 20, 2003]

[8]   J. Li and S. Lei, “Embedded image coder with rate-distortion optimization”, US6,625,321, [Filed Jan. 30, 1997, Issued Sept. 23, 2003]

[9]   C. Zhang and J. Li, “Methods and arrangements for compressing image based rendering data using multiple reference frame prediction techniques that support just-in-time rendering of an image”, US 6,693,964 [Filed Mar. 24, 2000, Issued Feb. 17, 2004]

[10]    J. Li and J. Zhou, “System and method for delivery of dynamically scalable audio/video content over a network”, US 6,789,123 [Filed Dec. 28, 2001, Issued Sept. 7, 2004]

[11]    J. Li, H. Sun, H. Li, Q. Zhang and X. Lin, “Methods and systems for providing random access to structured media content”, US 6,807, 550 [Filed Dec, 1, 1999, Issued Oct. 19, 2004]

[12]    C. Zhang, J. Li and Y. Wu, “Rebinning methods and arrangments for use in compressing image-based rendering (IBR) data”, US 6,959,120[filed Oct. 27, 2000, Issued Oct. 25, 2005]

[13]    C. Zhang, J. Li and Y. Wu, “Rebinning methods and arrangments for use in compressing image-based rendering (IBR) data”, US 6,959,120[filed Oct. 27, 2000, Issued Oct. 25, 2005]

[14]    C. Zhang and J. Li, “Methods and arrangements for handling concentric mosaic image data”, US 6,993,074[filed Mar. 19, 2001, Issued Jan. 31, 2006]

[15]    C. Zhang, J. Li and Y. Wu, “Rebinning methods and arrangements for use in compressing image-based rendering (IBR) data”, US 6,996,294, [filed Oct. 18, 2004, Issued Feb. 7, 2006]

[16]    C. Zhang, J. Li and Y. Wu, “Rebinning methods and arrangements for use in compressing image-based rendering (IBR) data”, US 7,065,260, [filed Oct. 13, 2004, Issued June. 20, 2006]

[17]    C. Zhang, J. Li and Y. Wu, “Rebinning methods and arrangements for use in compressing image-based rendering (IBR) data”, US 7,110,617, [filed Oct. 18, 2004, Issued Sept. 19, 2006]

[18]    J. Li, “System and method for embedded audio coding with implicit auditory masking”, US 7,110,941, [filed Mar. 28, 2002, Issued Sept. 19, 2006]

[19]    J. Li, “System and method for receiver-driven streaming in a peer-to-peer network”, US 7,174,385, [filed Sept. 28, 2004, Issued Feb. 6, 2007]

[20]    J. Li, H. Sun, H. Li, Q. Zhang, and X. Ling, “Methods and systems for providing random access to structured media content”, US 7,236,988, [filed Apr. 30, 2004, Issued June. 6, 2007] (related to JPIP protocol in JEPG 2000)

[21]    J. Li “System and method for a media codec employing a reversible transform obtained via matrix lifting”, US 7,315,822, [filed Feb. 20, 2004, Issued Jan. 1, 2008] (related to MPEG-4 ALS)

[22]    J. Li “Progressive to lossless embedded audio coder (PLEAC) with multiple factorization reversible transform”, US 7,395,210, [filed Nov. 21, 2002, Issued Jul. 1, 2008]

[23]    J. Li “Efficient implementation of reed-solomon erasure resilient codes in high-rate applications”, US 7,418,649, [filed Mar. 15, 2005, Issued Aug. 26, 2008]

[24]    J. Li “Serverless peer-to-peer multi-party real-time audio communication system and method”, US 7,460,495, [filed Feb. 23, 2005, Issued Dec. 2, 2008]

[25]    J. Li, H. Sun, H. Li, Q. Zhang, and X. Ling, “Methods and systems for providing random access to structured media content”, US 7,490,104, [filed May. 10, 2004, issued Feb. 10, 2009] (related to JPIP protocol in JEPG 2000)

[26]    J. Li, “System and method for seamless multiplexing of embedded bitstreams”, US 7,496,234, [filed Jun. 20, 2003, issued Feb. 24, 2009]

[27]    J. Li and Y. Cui, “Random access read/write media format for an on-demand distributed streaming system”, US 7,536,470, [filed Mar. 12, 2005, issued May. 19, 2009]

[28]    J. Li, “Coordination of client-driven media streaming from a cluster of non-cooperating peers in a peer-to-peer network”, US 7,539,767, [filed Feb. 5, 2007, issued May. 26, 2009]

[29]    J. Li and C. Zhang, “Distributed hosting of web content using partial replication”, US 7,546,342, [filed May. 14, 2004, issued Jun. 9, 2009]

[30]    J. Li, “Metadata structures for mass P2P file sharing”, US 7,558,797, [filed Jun. 30, 2006, issued Jul. 7, 2009]

[31]    J. Li, C. Zhang and P. A. Chou, “Efficient one-to-many content distribution in a peer-to-peer computer network”, US 7,593,333, [Filed Jul. 7, 2004, issued Sept. 22, 2009]

[32]    J. Li, “On-demand file transfers for mass P2P file sharing”, US 7,613,770 [filed Jun. 30, 2006, issued Nov. 3, 2009]

[33]    J. Li, S. Sengupta, M. Ponec, M. Chen, P. A. Chou, “Rate-controllable peer-to-peer data stream routing”, US 7,636,789 [filed Nov. 27, 2007, issued Dec. 22, 2009]

[34]    J. Li, and Y. Cui, “Digital rights management scheme for an on-demand distributed streaming system”, US 7,639,805 [filed Mar. 12, 2005, issued Dec. 29, 2009]

[35]    D. Teodosiu, P. A. Chou, A. Heron, C. Huang, “Scheduling connections between peers in a peer-to-peer file sharing environment”, US 7,643,491[ filed Dec. 16, 2005, issued Jan. 5, 2010]

[36]    J. Li, “System and method for distributed streaming of scalable media”, US 7,664,109, [filed Sept. 3, 2004, issued Feb. 16, 2010]

[37]    P. Y. Simard, P. A. Viola, and J. Li, “Credit-based peer-to-peer storage”, US 7,707,248, [filed Jun. 25, 2007, issued Apr. 27, 2010]

[38]    S. Liu, S. Sengupta, M. Chiang, J. Li and P. A. Chou, “Models for routing tree selection in peer-to-peer communications”, US 7,738,406, [filed Oct. 8, 2008, Issued Jun. 15, 2010]

[39]    J. Li and Y. Sun, “Distributed source coding with context”, US 7,743,309, [filed Mar. 17, 2006, Issued Jun. 22, 2010]

[40]    J. Li “Receiver driven streaming in a peer-to-peer network”, US 7,752,327, [filed Feb. 5, 2007, Issued Jul. 6, 2010]

[41]    J. Li, J. Johnston, W. Y. Chan, “Perceptual, scalable audio compression”, US Patent 7,835,904, [filed Mar. 3, 2006, Issued Nov. 16, 2010]

[42]    J. Li, “Seamless multiplexing of embedded bitstreams”, US 7,840,079, [filed Jan. 5, 2009, Issued Nov. 23, 2010]

 

Highly Cited Papers

 

Note: Harzing’s Publish and Perish 3.1.3974 is used to obtain the citation result. Because the author works in industry, and publish both patent/technical reports and paper on the same topic. 4 highly cited patent/technical report is merged with its corresponding paper. Paper 1 has two entries in Google Scholar. Otherwise, the citations of papers are never merged.

H-index: 23 (H-index without merging of patent/technical report is 24)

 

[1]   C. Huang, J. Li, K. W. Ross, "Can Internet Video-on-Demand be profitable", in ACM SIGCOMM 2007, Aug. 2007, Kyoto, Japan. [cites: 224]

{

The article has two entries in Google Scholar, “Can internet video-on-demand be profitable”, ACM SIGCOMM 2007, which has 206 citations, and “Can internet VoD be profitable?”, ACM SIGCOMM 2007, which has 18 citations.

}

[2]   J. Li and S. Lei, "An embedded still image coder with rate-distortion optimization", IEEE Trans. On Image Processing, Vol. 8, No. 7, pp. 913-924, Jul. 1999. [cites: 145]

{Show as J. Li and S. Lei, "An embedded still image coder with rate-distortion optimization", IEEE Trans. On Image Processing, Vol. 8, No. 7, pp. 913-924, Jul. 1999. cites: 102

And J. Li and S. Lei, “Embedded image coder with rate-distortion optimization”, US6,625,321, cites: 43}

[3]   L. Luo, J. Li, S. Li, Z. Zhuang and Y. Zhang. "Motion compensated lifting wavelet and its application in video coding", IEEE International Conference on Multimedia and Expo (2001), Tokyo, Japan, Aug. 2001.[cites:95]

[4]   J. Li, “PeerStreaming: a practical receiver-driven peer-to-peer media streaming system”, Microsoft Research Technical Report, MSR-TR-2004-101. [cites:61]

[5]   P. Cheng, J. Li and J. Kuo, "Rate control for embedded wavelet video coder'', IEEE Trans. On Circuit and System for Video Technology, Vol. 7, No. 4, pp. 696-702, Aug. 1997.[cites:62]

[6]   J. Li, "Visual progressive coding", SPIE: Visual Communication and Image Processing, Volume 3653, No. 116, San Jose, CA, Jan. 1999. [cites:60]

{Show as “Method of Visual Progressive Coding”, US Patent 6,327,392, cites: 47,

and "Visual progressive coding", VCIP’1999, cites: 13}

[7]   J. Li, P. A. Chou and C. Zhang, “Mutualcast: an efficient mechanism for content distribution in a P2P network”, Proc. Acm Sigcomm Asia Workshop, Beijing, China, Apr. 10-12, 2005.[cites:60]

{

Show as: J. Li, P. A. Chou and C. Zhang, “Mutualcast: an efficient mechanism for content distribution in a P2P network”, Proc. Acm Sigcomm Asia Workshop, Beijing, China, Apr. 10-12, 2005.[cites:32]

And J. Li, P. A. Chou, and C. Zhang, “Mutualcast: an efficient mechanism for content distribution in a (Peer-to-Peer) P2P network”, MSR Technical Report, MSR-TR-2004-100. [cites:28]

}

[8]   C. Huang, J. Li, K. W. Ross, "Peer-assisted VoD: making internet video distribution cheap", in the 6th International Workshop on Peer-to-peer systems (IPTPS 2007), Feb. 2007, Bellevue, WA.[cites:52]

[9]   L. Luo, Y. Wu, J. Li and Y. Zhang, “Compression of concentric mosaic scenery with alignment and 3D wavelet transform”, SPIE: Image and Video Communication and Processing, Vol. 3974, No. 10, pp. 89-100, San Jose CA, Jan. 2000.[cites:47]

{

Show as: L. Luo, Y. Wu, J. Li and Y. Zhang, “Compression of concentric mosaic scenery with alignment and 3D wavelet transform”, SPIE: Image and Video Communication and Processing, Vol. 3974, No. 10, pp. 89-100, San Jose CA, Jan. 2000.[cites:30]

And J. Li, Y. Zhang, Y. Wu and L. Luo, “Methods and arrangements for compressing image-based rendering (IBR) data using alignment and 3D wavelet transform techniques”, US6,567,081, [Filed Jun. 20, 2001, Issued May. 20, 2003, cites: 17]

}

[10]C. Zhang and J. Li, "Compression of Lumigraph with multiple reference frame (MRF) prediction and just-in-time rendering", IEEE Data Compression Conference (DCC'2000), pp. 253-262, Snowbird, Utah, Mar. 2000.[cites: 43]

[11]M. Chen, M. Ponec, S. Sengupta, J. Li, P. A. Chou, "Utility maximization in peer-to-peer systems", ACM SIGMETRICS 2008, Annapolis, Maryland, Jun. 2-6, 2008. [cites: 41]

[12]J. Li and S. Lei, “Rate-distortion optimized embedding”, Picture Coding Symposium, pp. 201-206, Berlin, Germany, Sep. 1997.[cites: 39]

[13]W. Zeng, S. Lei and J. Li, "An efficient color re-indexing scheme for palette-based compression", IEEE International Conference on Image Processing (ICIP 2000), #1321, Vancouver, BC, Sept. 2000. [cites: 38]

[14]C. Zhang and J. Li, "Compression and rendering of concentric mosaic scenery with reference block codec (RBC)", SPIE Visual Communication and Image Processing (VCIP 2000), Vol. 4067, No. 5, pp. 43-54, Perth, Australia, Jun. 2000.[cites: 37]

[15]J. Li and S. Lei, “Arbitrary shape wavelet transform with phase alignment”, US 6,233,357. [cites: 37]

[16]J. Li, "Embedded audio coding (EAC) with implicit psychoacoustic masking", ACM Multimedia 2002, Nice, France, Dec.1-6, 2001. [cites:31]

[17]C. Huang, A. Wang, J. Li, K. W. Ross, “Understanding hybrid CDN-P2P: why Limelight needs its own RedSwoosh”, NOSSDAV’08, Braunschweig, Germany, May. 28-30, 2008.[cites:30]

[18]J. Li and J. Kuo, "Image compression with a hybrid wavelet-fractal coder", IEEE Trans. On Image Processing, Vol. 8, No. 6, pp. 868-873, Jun. 1999. [cites:29]

[19]J. Duan and J. Li, "Compression of the layered depth image", IEEE Trans. On Image Processing, vol. 12, no. 3, Mar. 2003, pp.365-372. [cites: 29]

[20]S. Daly, W. Zeng, J. Li and S. Lei, “Visual masking in wavelet compression for JPEG 2000”, SPIE: Image and Video Communication and Processing, Vol. 3974, No. 10, pp. 89-100, San Jose CA, Jan. 2000. [cites:28]

[21]J. Li, P. Cheng, and J. Kuo, “On the improvements of embedded zerotree wavelet (EZW) coding,” SPIE: Visual Communication and Image Processing, volume 2501, pp. 1490--1501, Taipei, Taiwan, May 1995.[cites:27]

[22]G. Xing, J. Li, S. Li and Y. Zhang, “Arbitrarily shaped video object coding by wavelet”, IEEE International Symposium for Circuit and Systems (ISCAS 2000), Geneva, Switzerland, May. 2000. [cites:24]

[23]C. Huang, M. Chen and J. Li, “Pyramid codes: flexible schemes to trade space for access efficiency in reliable data storage systems”, in the 6th IEEE International symposium on network computing and applications (NCA 2007), Jul. 2007, Cambridge, MA. [cites:23]

 

Journal Papers

[1]   S. Sengupta, S. Liu, M. Chen, M. Chiang, J. Li, and P. A. Chou, “P2P Streaming Capacity”, accepted by IEEE Trans. On Information Theory.

[2]   J. Li, “On peer-to-peer (P2P) content delivery”, Peer-to-Peer Networking and Applications, Vol. 1, Issue 1, pp. 45-63, Mar. 2008.

[3]   J. Li, Y. Cui and B. Chang, “PeerStreaming: Design and Implementa-tion of an on-demand distributed streaming system”, ACM Multimedia Systems Journal, 2007.

[4]   J. Li, “Low noise reversible MDCT (RMDCT) and its application in progressive to lossless embedded audio coding”, IEEE Trans. On Signal Processing, vol. 53, no. 5, May. 2005, pp. 1870-1880.

[5]   C. Zhang and J. Li, “On the Compression and Streaming of Concentric Mosaic Data for Free Wandering in a Realistic Environment over the Internet”, IEEE Trans. On Multimedia, vol. 7, no. 6, Dec. 2005, pp.1170-1182.

[6]   J. Duan and J. Li, “Compression of the layered depth image”, IEEE Trans. On Image Processing, vol. 12, no. 3, Mar. 2003, pp.365-372.

[7]   J. Li and H. Sun, "On interactive browsing of large images", IEEE Trans. On Multimedia, vol. 5, no. 4, pp. 581-590, Dec. 2003.

[8]   Y. Wu, C. Zhang and J. Li, "Smart rebinning for the compression of concentric mosaic", IEEE Trans. on Multimedia, vol. 4, no. 3, pp. 332-342, Sept. 2002.

[9]   Y. Wu and J. Li, "Concentric mosaic compression with rebinning of slits (ROSS) ", IEEE Signal Processing Letters, vol. 9, no. 9, pp. 269-271, Sept. 2002.

[10]L. Luo, Y. Wu, J. Li and Y. Zhang, “3D wavelet compression and progressive inverse wavelet synthesis rendering”, IEEE Trans. On Image Processing, Vol. 11, No. 7, pp. 802-816, Jul. 2002.

[11]G. Xing, J. Li, S. Li and Y. Zhang, “Arbitrarily shaped video object coding by wavelet”, IEEE Trans. On Circuits and Systems for Video Technology, Vol. 11, No. 10, pp. 1135-1139, Oct. 2001.

[12]J. Li, H. Shum and Y. Zhang, “On the compression of the image based rendering scene: a comparison among block, reference and wavelet coders”, International Journal on Image and Graphics, Vol. 1, No. 1, pp.45-61, 2001.

[13]J. Li and S. Lei, "An embedded still image coder with rate-distortion optimization", IEEE Trans. On Image Processing, Vol. 8, No. 7, pp. 913-924, Jul. 1999.

[14]J. Li and J. Kuo, "Image compression with a hybrid wavelet-fractal coder", IEEE Trans. On Image Processing, Vol. 8, No. 6, pp. 868-873, Jun. 1999.

[15]P. Cheng, J. Li and J. Kuo, “Rate control for embedded wavelet video coder'', IEEE Trans. On Circuit and System for Video Technology, Vol. 7, No. 4, pp. 696-702, Aug. 1997.

[16]K. Liang, J. Li and J. Kuo, “Embedded wavelet coder with multistage vector quantization,'' the International Journal on Imaging Systems and Technology, Vol. 8, No. 5, pp.444-449, 1997.

[17]J. Li, J. Li, and J. Kuo, “Layered DCT still image compression,” IEEE Trans. On Circuit and System for Video Technology, Vol. 7, No.2, pp.440-443, Apr. 1997.

[18]J. Li, X. Lin, and J. Kuo, “Boundary-control vector (BCV) motion field representation and estimation by using a Markov random field model”, Journal of Visual Communication and Image Representation, Vol. 7, No. 3, pp. 230-243, Sep. 1996.

[19]J. Li and X. Lin, “Sequential image coding based on the multiresolution tree architecture,” IEE Electronics Letters, 29, pp. 1545--1547, 1993.

[20]J. Li, X. Lin, and Y. Wu, “Image coding with neural nets,” Journal of China Institute of Communications, 14(6), pp. 84--89, December 1993.

 

Book Chapter

 

[1] J. Li, “Image Compression – The Mechanics of JPEG 2000”, in MSRI modern signal processing series.

[2] J. Li, “Scalable audio coding”, in Multimedia over IP: Wired and Wireless Networks, M. Schaar and P. A. Chou eds.

 

Conference

Papers

 

[1]   B. Debnath, S. Sengupta, and J. Li, “SkimpyStash: RAM space skimpy key-value store on Flash-based storage”, ACM SIGMOD 2011, Athens, Greece, Jun. 2011.

[2]   Y. Wang, C. Huang, J. Li, P. A. Chou, Y. R. Yang, “QoSaaS: Quality of Service as a Service”, The Workshop on Hot Topics in Management of Internet, Cloud, and Enterprise Networks and Services (Hot-ICE '2011), Boston, MA, Apr. 2011. (acceptance rate: 54%)

[3]   B. Debnath, S. Sengupta, J. Li, D. Lilja, and D. Du, “BloomFlash: Bloom Filter on Flash-based Storage”, Proc. ICDCS, 2011, Minneapolis, MN, USA, Jun. 2011. (9 pages, acceptance rate: 15%)

[4]   Y. A. Wang, C. Huang, J. Li, and K. W. Ross, “Estimating the performance of hypothetical cloud service deployments: a measurement-based approach”, Proc. INFOCOM 2011, Shanghai, China, Apr. 2011. (9 pages, acceptance rate: 16%)

[5]   C. Huang, D. A. Maltz, A. Greenberg, and J. Li, “Public DNS system and global traffic management”, Proc. INFOCOM 2011, Shanghai, China, Apr. 2011. (9 pages, acceptance rate: 16%)

[6]   L. Zhao, H. Chandler, J. Stokes, H. Shen and J. Li “Towards P2P-based multimedia sharing in user generated contents”, Proc. INFOCOM 2011, Shanghai, China, Apr. 2011. (9 pages, acceptance rate: 16%)

[7]   S. Mehrotra, J. Li, S. Sengupta, M. Jain, S. Sen “Hybrid Window and Rate Based Congestion Control for Delay Sensitive Applications”, Proc. GLOBECOM 2010, Miami, FL, Dec. 2010.(acceptance rate:35%)

[8]   B. Debnath, S. Sengupta, and J. Li, “FlashStore: High Throughput Persistent Key-Value Store”, in Proc. 36th International Conference on Very Large Data Bases (VLDB’2010), Singapore, September 2010. (12 pages, acceptance rate: 18%)

[9]   S. Mehrotra, J. Li, and Y. Huang, “Minimizing delay in lossless sequential data streaming”, Proc. International Conference on Multimedia (ICME’2010), Singapore, Jul. 2010. (Oral paper, top 15% of submission)

[10]S. Liu, M. Chen, S. Sengupta, M. Chiang, J. Li, and P. A. Chou, “P2P Streaming Capacity under Node Degree Bound”, International Conference in Distributed Computing Systems (ICDCS) 2010, Genoa, Italy, June 2010. (12 pages, acceptance rate: 14%)

[11]C. Huang, N. Holt, Y. A. Wang, A. Greenberg, J. Li, and K. W. Ross, “A DNS Reflection Method for Global Traffic Management”, Proc. USENIX Annual Technical Conference (ATC'10), Boston, MA, Jun. 2010. (acceptance rate: 17%)

[12]B. Debnath, S. Sengupta, and J. Li, “ChunkStash: Speeding up Inline Storage Deduplication using Flash Memory”, Proc. USENIX Annual Technical Conference (ATC) 2010, Boston, MA, June 2010. (14 pages, acceptance rate: 17%)

[13]A. Mondal, R. Cutler, C. Huang, J. Li, and A. Kuzmanovic, “SureCall: Towards Glitch-Free Real-Time Audio/Video Conferencing”, Proc. IEEE International Workshop on Quality of Service (IWQoS 2010), Beijing, China, Jun. 2010. (acceptance rate: 24%)

[14]A. Mondal, C. Huang, J. Li, M. Jain, and A. Kuzmanovic, “A Case for WiFi Relay: Improving VoIP Quality for WiFi Users”, Proc. IEEE International Conference on Communications (ICC 2010), Cape Town, South Africa, May. 2010. (acceptance rate: 40%)

[15]A. Pathak, Y. A. Wang, C. Huang, A. Greenberg, Y. C. Hu, R. Kern, J. Li, and K. W. Ross, “Measuring and Evaluating TCP Splitting for Cloud Services”, Proc. Passive and Active Measurement Conference (PAM 2010), Zurich, Switzerland, Apr. 2010. (acceptance rate: 29%)

[16]S. Liu, M. Chiang, M. Jourdain, and J. Li, "Congestion Location Detection - Methodology, Algorithm & Performance", IEEE International Workshop on Quality of Service (IWQoS'09), Charleston, SC, Jul. 2009. (acceptance rate: 34%)

[17]Y. Wu, Y. C. Hu, J. Li and P. A. Chou, “The Delay Region for P2P File Transfer”, IEEE International Symposium on Information Theory (ISIT), Seoul, Korea, June 2009. (acceptance rate:61%)

[18]Y. Huang, S. Mehrotra, J. Li, “A hybrid FEC-ARQ protocol for low-delay lossless sequential data streaming”, 2009 IEEE International Conf. on Multimedia and Expo (ICME’2009), Jun. 28-Jul. 3, 2009, New York City. (oral acceptance rate: 22%)

[19]M. Ponec, S. Sengupta, M. Chen, J. Li, P. A. Chou, “Multi-rate peer-to-peer video conferencing: a distributed approach using scalable coding”, 2009 IEEE International Conf. on Multimedia and Expo (ICME’2009), Jun. 28-Jul. 3, 2009, New York City.(oral acceptance rate: 22%, best paper award)

[20]A. Wang, C. Huang, J. Li, K. W. Ross, "Queen – Estimating Packet Loss Rate between Arbitrary Internet Hosts," The 10th Passive and Active Measurement Conference, Apr. 1-3, 2009, Seoul, Korea. (acceptance rate: 31%)

[21]V. Vasudevan, S. Sengupta, J. Li, “A First Look at Media traffic in the Global Enterprise”, The 10th Passive and Active Measurement Conference, Apr. 1-3, 2009, Seoul, Korea.  (acceptance rate: 31%)

[22]C. Huang, A. Wang, J. Li, K. W. Ross, "Measuring and Evaluating Large-Scale CDNs," IMC, Oct. 2008 (acceptance rate: 17%, note: withdraw from the conference due to Microsoft business reasons).

[23]J. Wang, C. Huang, J. Li, "On ISP-Friendly Rate Allocation for Peer-Assisted VoD," ACM MM 2008, Vancouver, BC, Oct. 27-31, 2008. (10 pages, acceptance rate: 17%)

[24]S. Sengputa, M. Chen, P. A. Chou, and J. Li, “On optimality of routing for multi-source multicast communication scenarios with node uplink constraints”, ISIT 2008, Toronto, Canada, Jul. 6-11, 2008.

[25]M. Chen, M. Ponec, S. Sengupta, J. Li, P. A. Chou, “Utility maximization in peer-to-peer systems”, ACM SIGMETRICS 2008, Annapolis, Maryland, Jun. 2-6, 2008. (12 pages, acceptance rate: 18%)

[26]C. Huang, A. Wang, J. Li, K. W. Ross, “Understanding hybrid CDN-P2P: why Limelight needs its own RedSwoosh”, NOSSDAV’08, Braunschweig, Germany, May. 28-30, 2008. (acceptance rate: 34%)

[27]M. Chen, S. Sengupta, M. Ponec, P. A. Chou, J. Li, “Peer-to-peer utility maximization”, CISS’08, Princeton, NJ, Mar. 2008.

[28]J. Li, “Locality aware peer assisted delivery: the way to scale Internet video to the world”, 16th Packet Video workshop (PV 2007), Lausanne, Switzerland, Nov. 2007.

[29]C. Huang, J. Li, and M. Chen, “On optimizing XOR-based codes for fault-tolerant storage applications”, in 2007 IEEE Information Theory Workshop (ITW 2007), Sep. 2007, Lake Tahoe, CA.

[30]C. Huang, J. Li, K. W. Ross, “Can Internet Video-on-Demand be profitable”, in ACM SIGCOMM 2007, Aug. 2007, Kyoto, Japan. (12 pages, acceptance rate: 14%)

[31]C. Huang, M. Chen and J. Li, “Pyramid codes: flexible schemes to trade space for access efficiency in reliable data storage systems”, in the 6th IEEE International symposium on network computing and applications (NCA 2007), Jul. 2007, Cambridge, MA.

[32]M. Chen, C. Huang, and J. Li, “On the maximally recoverable property for multi-protection group codes”, in 2007 IEEE International Symposium on Information Theory (ISIT 2007), Jun. 2007, Nice, France.

[33]C. Huang, J. Li, K. W. Ross, “Peer-assisted VoD: making internet video distribution cheap”, in the 6th International Workshop on Peer-to-peer systems (IPTPS 2007), Feb. 2007, Bellevue, WA.(acceptance rate:23%)

[34]J. Li, and J. D. Johnston, “Perceptually layered scalable coding”, in 2006 40th Asilomar Conf. on Signals, Systems and Computers, Oct. 2006, pp.2125-2129, Pacific Grove, CA.

[35]A. Conceicao, J. Li, D. Florencio, F. Kon, “Is IEEE 802.11 Ready for VoIP”, in 2006 8th workshop on Multimedia Signal Processing, Oct. 2006, Victoria, BC.

[36]J. Li, “Adaptive erasure resilient coding in distributed storage”, 2006 International Conference on Multimedia & Expo (ICME’2006), Toronto, Canada, Jul. 9-12, 2006.

[37]C. Huang and J. Li, “DISCOVR: distributed collaborative video recorder”, 2006 International Conference on Multimedia & Expo (ICME’2006), Toronto, Canada, Jul. 9-12, 2006.

[38]Y. Sun and J. Li, “Distributed source coding with context modeling”, IEEE International Conference on Acoustics, Speech, and Signal Processing (ICASSP’2006), Toulouse, France, May. 15-19, 2006.

[39]J. Li and Q. Huang, “Erasure resilient codes in peer-to-peer storage cloud”, IEEE International Conference on Acoustics, Speech, and Signal Processing (ICASSP’2006), Toulouse, France, May. 15-19, 2006.

[40]C. Huang, P. A. Chou, J. Li, and C. Zhang, “Adaptive peer-to-peer streaming with MutualCast”, International Packet Video Workshop 2006, Hang Zhou, China, Apr. 20-21, 2006.

[41]J. Li, “PeerStreaming: an on-demand peer-to-peer media streaming solution based on a receiver-driven streaming protocol”, in Proc. IEEE 7th Workshop on Multimedia Signal Processing, Shanghai, China, Nov. 2005. pp. 197-200.

[42]J. Li, P. A. Chou and C. Zhang, “Mutualcast: an efficient mechanism for content distribution in a P2P network”, Proc. Acm Sigcomm Asia Workshop, Beijing, China, Apr. 10-12, 2005.

[43]J. Li, “The efficient implementation of Reed-Solomon high rate erasure resilient codes”, IEEE International Conference on Acoustics, Speech, and Signal Processing (2005), Philadelphia, PA, Mar. 19-23, 2005.

[44]J. Li, “The seamlessly multiplexed embedded codec (SMEC) and its application in image coding”, IEEE International Conference on Image Processing (2004), Singapore, Oct. 2004.

[45]J. Li and C. Zhang, “Distributed hosting of web content with erasure coding and unequal weight assignment”, IEEE International Conference on Multimedia Expo (2004), Taipei, Jun. 27-30, 2004.

[46]Z. Wen, Z. Liu, M. Cohen, J. Li, K. Zheng, T. Huang, “Low bit-rate video streaming for face-to-face teleconference”, IEEE International Conference on Multimedia Expo (2004), Taipei, Jun. 27-30, 2004.

[47]J. Li, “Reversible FFT and MDCT via matrix lifting”, IEEE International Conference on Acoustics, Speech, and Signal Processing (2004), Montreal, Quebec, May. 23-28, 2004.

[48]J. Li, “A progressive to lossless embedded audio coder (PLEAC) with reversible modulated lapped transform”, IEEE International Conference on Multimedia Expo (2003), Baltimore, MD, Jul. 6-10, 2003. (re-published due to cancellation of ICASSP 2003).

[49]J. Li, “A progressive to lossless embedded audio coder (PLEAC) with reversible modulated lapped transform”, IEEE International Conference on Acoustics, Speech, and Signal Processing (2003), Hong Kong, China, Apr. 6-10, 2003.

[50]J. Li, "Embedded audio coding (EAC) with implicit psychoacoustic masking", ACM Multimedia 2002, Nice, France, Dec.1-6, 2001.(acceptance rate: 18%)

[51]L. Luo, J. Li, S. Li, Z. Zhuang and Y. Zhang. “Motion compensated lifting wavelet and its application in video coding”, IEEE International Conference on Multimedia and Expo (2001), Tokyo, Japan, Aug. 2001.

[52]J. Zhou and J. Li, “Scalable audio streaming over the internet with network-aware rate-distortion optimization”, IEEE International Conference on Multimedia and Expo (2001), Tokyo, Japan, Aug. 2001.

[53]J. Duan and J. Li, “Compression of the layered depth image”, in IEEE Data Compression Conference (DCC’2001), Snowbird, Utah, Mar. 2001, pp.331-340.

[54]C. Zhang and J. Li, “Interactive browsing of 3D environment over the Internet”, in Visual Communication and Image Processing 2001 (VCIP 2001), SPIE Vol. 4310, No. 51, San Jose, CA, Jan 2001.

[55]J. Li and H. Sun, “A virtual media (Vmedia) access protocol and its application in interactive image browsing”, SPIE, IS&T and ACM SIG Multimedia, Multimedia Computing and Networking 2001 (MMCN'01), Vol. 4312, No. 10, San Jose, CA, Jan. 2001.

[56]Y. Wu and J. Li, “Compression of concentric mosaic with rebinning of slits (ROSS)”, The First IEEE Pacific-Rim Conference on Multimedia, Sydney, Australia, Dec. 13-15, 2000.

[57]J. Li and H. Sun, “A virtual media (Vmedia) JPEG 2000 interactive image browser”, ACM Multimedia 2000 (demo), Los Angeles, CA, Oct. 2000, pp.501-502.

[58]Y. Wu, C. Zhang, J. Li and J. Xu, “Smart rebinning for compression of concentric mosaics”, ACM Multimedia 2000 (oral presentation), Los Angeles, CA, Oct. 2000, pp.201-209. (9 pages, acceptance rate: 17%)

[59]J. Li, H. Shum and Y. Zhang, “On the compression of image based rendering scene”, IEEE International Conference on Image Processing (ICIP 2000), #3307, Vancouver, BC, Sept. 2000.

[60]W. Zeng, S. Lei and J. Li, “An efficient color re-indexing scheme for palette-based compression”, IEEE International Conference on Image Processing (ICIP 2000), #1321, Vancouver, BC, Sept. 2000.

[61]Y. Wu, L. Luo, J. Li and Y. Zhang, “Rendering of 3D wavelet compressed concentric mosaic scenery with progressive inverse wavelet synthesis (PIWS)”, SPIE Visual Communication and Image Processing (VCIP 2000), Vol. 4067, No. 4, pp.31-42, Perth, Australia, Jun. 2000.

[62]C. Zhang and J. Li, “Compression and rendering of concentric mosaic scenery with reference block codec (RBC)”, SPIE Visual Communication and Image Processing (VCIP 2000), Vol. 4067, No. 5, pp. 43-54, Perth, Australia, Jun. 2000.

[63]G. Xing, J. Li, S. Li and Y. Zhang, “Arbitrarily shaped video object coding by wavelet”, IEEE International Symposium for Circuit and Systems (ISCAS 2000), Geneva, Switzerland, May. 2000.

[64]H. Wang and J. Li, “Octmesh – interactive mesh browsing over the internet”, IEEE information theory: coding and communication (ITCC 2000), pp. 104-108, Las Vegas, NV, Mar. 2000.

[65]C. Zhang and J. Li, “Compression of Lumigraph with multiple reference frame (MRF) prediction and just-in-time rendering”, IEEE Data Compression Conference (DCC’2000), pp. 253-262, Snowbird, Utah, Mar. 2000.

[66]L. Luo, Y. Wu, J. Li and Y. Zhang, “Compression of concentric mosaic scenery with alignment and 3D wavelet transform”, SPIE: Image and Video Communication and Processing, Vol. 3974, No. 10, pp. 89-100, San Jose CA, Jan. 2000.

[67]S. Daly, W. Zeng, J. Li and S. Lei, “Visual masking in wavelet compression for JPEG 2000”, SPIE: Image and Video Communication and Processing, Vol. 3974, No. 10, pp. 89-100, San Jose CA, Jan. 2000.

[68]J. Li, “Visual progressive coding”, SPIE: Visual Communication and Image Processing, Volume 3653, No. 116, San Jose, CA, Jan. 1999.

[69]W. Zeng, J. Li and S. Lei, “Adaptive wavelet transform with spatially varying filters for scalable image coding”, 1998 IEEE International Conference on Image Processing, volume 1, pp. 112-116, Chicago, IL, Oct. 1998.

[70]J. Li and S. Lei, “Arbitrary shape wavelet transform with phase alignment”, 1998 IEEE International Conference on Image Processing, volume 3, pp. 683-687, Chicago, IL, Oct. 1998.

[71]J. Li and S. Lei, “An embedded still image coder with rate-distortion optimization”, SPIE: Visual Communication and Image Processing, volume 3309, pp. 36-47, San Jose, CA, Jan. 1998.

[72]J. Li and J. Kuo, “Coding artifact removal with multiscale post-processing”, 1997 IEEE International Conference on Image Processing, volume 1, pp. 45-48, Santa Barbara, CA, Oct. 1997.

[73]J. Li and S. Lei, “Rate-distortion optimized embedding”, Picture Coding Symposium, pp. 201-206, Berlin, Germany, Sep. 1997.

[74]J. Li, “Interscale predictive wavelet coding with Huber Markov random field”, Picture Coding Symposium, pp. 387-392, Berlin, Germany, Sep. 1997.

[75]Y. Lai, J. Kuo and J. Li, “New image compression artifact measure using wavelets”, SPIE: Visual Communication and Image Processing, volume 3204, pp. 897-908, San Jose, Feb. 1997.

[76]J. Li, and J. Kuo, “Hybrid wavelet-fractal image compression based on a rate-distortion criterion”, SPIE: Visual Communication and Image Processing, volume 3204, pp. 1014-1025, San Jose, Feb. 1997.

[77]J. Li, J. Kuo and P. Cheng, “Embedded wavelet packet image coder with fast rate-distortion optimized decomposition”, SPIE: Visual Communication and Image Processing, volume 3204, pp. 1077-1088, San Jose, Feb. 1997.

[78]P. Cheng, J. Li, and J. Kuo, “Rate-distortion optimized bit rate control scheme for a wavelet video coder”, SPIE: Visual Communication and Image Processing, volume 3204, pp.105-116, San Jose, Feb. 1997.

[79]J. Li, J. Li and J. Kuo, “Progressive compression of 3D graphic model”, 1997 IEEE International Conference on Multimedia Computing and Systems, pp.135-141, 1997.

[80]Y. Lai, J. Li, and J. Kuo, “A wavelet approach to compressed image quality measurement”, 30th Annual Asilomar Conference on Signals, Systems and Computers, Pacific Grove, CA, Nov. 3-6, pp.938-942, 1996.

[81]J. Li, J. Li, and J. Kuo, “An embedded DCT approach to progressive image compression,” IEEE International Conference on Image Processing, pp. I:81--84, Lausanne, Switzerland, September 1996.

[82]J. Li and J. Kuo, “Fractal wavelet coding using a rate-distortion constraint,” IEEE International Conference on Image Processing, pp. II:201--205, Lausanne, Switzerland, September 1996.

[83]J. Li, J. Li, and J. Kuo, “Embedded DCT still image compression,” Signal and Information Display, San Diego, CA, May 1996.

[84]P. Cheng, J. Li, and J. Kuo, “Video coding using embedded wavelet packet transform and motion compensation,” SPIE: Visual Information Processing V, Orlando, FL, Apr. 9, 1996.

[85]K. Liang, J. Li, and J. Kuo, “Image compression with embedded multiwavelet coding,” SPIE: Wavelet Application III, volume 2762, pp. 165--176, Orlando, FL, Apr. 9 1996.

[86]J. Li and J. Kuo, “Automatic target shape recognition via deformable wavelet templates,” SPIE: Automatic Object Recognition VI, volume 2756, pp. 2--13, Orlando, FL, Apr. 9 1996.

[87]Y. Lai, J. Li, and J. Kuo, “Image enhancement for low-bitrate JPEG and MPEG coding via postprocessing,” SPIE: Visual Communication and Image Processing, volume 2727, pp. 1484--1494, Orlando, FL, March 1996.

[88]J. Li and S. Kim and J. Kuo, “Focus of attention (FOA) identification from compressed video for automatic target recognition(ATR),” 1995 IEEE International Conference on Image Processing, pp. III:508--511, Washington, DC, Nov. 1995.

[89]P. Cheng, J. Li, and J. Kuo, “Multiscale video compression using wavelet transform and motion compensation,” 1995 IEEE International Conference on Image Processing, pp. I:606--609, Washington, DC, Nov. 1995.

[90]Y. Lai, J. Li, and J. Kuo, “Removal of blocking artifacts of DCT transform by classified space-frequency filtering,” 29th Annual Asilomar Conference on Signals, Systems, and Computers, Pacific Grove, CA, Nov. 1995.

[91]J. Li, P. Cheng, and J. Kuo, “An embedded wavelet packet transform technique for texture compression,” SPIE: Wavelet Applications in Signal and Image Processing II, volume 2569, pp. 602--613, San Diego, CA, Jul. 1995.

[92]J. Li, P. Cheng, and J. Kuo, “On the improvements of embedded zerotree wavelet (EZW) coding,” SPIE: Visual Communication and Image Processing, volume 2501, pp. 1490--1501, Taipei, Taiwan, May 1995.

[93]J. Li and J. Kuo, “Fingerprint compression using embedded wavelet packet transform,” Rockwell conference on signal processing, Thousand Oak, CA, Apr. 1995.

[94]J. Li, P. Cheng, and J. Kuo, “A wavelet transform approach to video compression,” SPIE: Wavelet Applications II, volume 2491, pp. 1107--1118, Orlando, FL, Apr. 17-21 1995.

[95]J. Li, X. Lin, and Y. Wu, “Boundary-control point based motion representation scheme with its application in video coding,” SPIE: Visual Communication and Image Processing, volume 2304, pp. 1838--1849, Chicago, IL, Sep. 25-28, 1994.

[96]X. Wang, J. Li and G. Wu, “Analysis of fractal image compression” in Chinese, The 5th SPS national conference proceedings, Wuhan, China, 1994.

[97]J. Li, X. Lin, and Y. Wu, “Multiresolution tree architecture with its application in video sequence coding,” SPIE: Visual Communication and Image Processing, volume 2094, pp. 730--741, Cambridge, MA, Nov. 8-11, 1993.

[98]J. Li, X. Lin, and Y. Wu, “Color image sequence coding with variable block size motion compensation,” IEEE Region Ten International Conference on ‘Computer Communications, Control and Power Engineering’, pp. 974--977, Beijing, China, Oct. 1993.

 

Courses/

Tutorials:

 

[1]   J. Li, “Image compression: mechanics of JPEG 2000” in MSRI advanced signal processing, Univ. of California – Berkeley, Berkeley, CA, Jun. 2001.

[2]   J. Li, “State-of-the art image compression techniquesin Advanced graduate courses series, Tsinghua Univ, Beijing, China, Sept., 1999.

[3]   J. Li, “Peer-to-peer multimedia applications” or “Locality aware P2P delivery: the way to scale Internet video”, tutorial given at ICME’2006, ACM MM’2006, ICASSP’2007, ICC'2008, ICME'2008, ICME’2009, ICC’2010, GLOBECOM’2010.

[4]   J. Li, “Towards glitch free VoIP and video conferencing”, Tutorial given at CCNC’2010,

 

 

Presentations at Standard Conferences

 

[1]   C. Zhang and J. Li, “Verification of PKU’s integer reversible color transform”, International Standard Organization, ISO/IEC JTC1/SC29/ WG1N1512, Maui, Hawaii, Dec. 8, 1999.

[2]   J. Li, “Chinese NB comment on IPR issue of JPEG2000 standard”, International Standard Organization, ISO/IEC JTC1/SC29/ WG1N1514, Maui, Hawaii, Dec. 8, 1999.

[3]   J. Li, “Vfile and JPEG 2000 Image browsing (presentation)”, International Standard Organization, ISO/IEC JTC1/SC29/ WG1N1512, Maui, Hawaii, Dec. 8, 1999.

[4]   J. Li, H.  Sun, H. Li, Q. Zhang and X. Ling, “A virtual file media access mechanism for JPEG2000 images browsing”, International Standard Organization, ISO/IEC JTC1/SC29/WG1N1473, Maui, Hawaii, Dec. 8, 1999.

[5]   C. Zhang and J. Li, “Verification of PKU’s integer reversible color transform”, International Standard Organization, ISO/IEC JTC1/SC29/WG1N1512, Maui, Hawaii, Dec. 8, 1999.

[6]   J. Li, “Chinese national body comment on intellectual property issue of JPEG 2000”, International Standard Organization, ISO/IEC JTC1/SC29/WG1N1514, Maui, Hawaii, Dec. 8, 1999.

[7]   J. Li, “Vfile – a virtual file media access mechanism (Presentation)”, International Standard Organization, ISO/IEC JTC1/SC29/WG1N1515, Maui, Hawaii, Dec. 8, 1999.

[8]   J. Li and S. Lei, "Report of arbitrary reordering of bitplanes for scalable/progressive core experiment", International Standard Organization, ISO/IEC JTC1/SC29/WG1/N846, Copenhagen, Denmark, Jul. 6-10, 1998.

[9]   J. Li and S. Lei, "Report of visual progressive coding for the visual core experiment", International Standard Organization, ISO/IEC JTC1/SC29/WG1/N847, Copenhagen, Denmark, Jul. 6-10, 1998.

[10]J. Li, "Test report - color SPIHT coding for color core experiment", International Standard Organization, ISO/IEC JTC1/SC29/WG1/N901, Copenhagen, Denmark, Jul. 6-10, 1998.

[11]J. Li and S. Lei, "The rate-distortion optimized embedding for the scalable coding/progressive core experiment", International Standard Organization, ISO/IEC JTC1/SC29/WG1/N757, Geneva, Switzerland, Mar. 23-27, 1998.

[12]J. Li, " Visual Progressive Coding", International Standard Organization, ISO/IEC JTC1/SC29/WG1/N758, Geneva, Switzerland, Mar. 23-27,1998.

[13]J. Li, W. Zeng and S. Lei, “The complete JPEG 2000 contribution phase questionnaire”, International Standard Organization, ISO/IEC JTC1/SC29 /WG1/N622, Sydney, Australia, Nov. 10-14, 1997.

[14]J. Li, W. Zeng and S. Lei, ”Sharp rate-distortion optimized embedded wavelet coding -- an algorithm proposal for JPEG 2000”, International Standard Organization, ISO/IEC JTC1/SC29/WG1/N621, Sydney, Australia, Nov. 10-14, 1997.

[15]J. Li and S. Lei, “Arbitrary shape wavelet transform with phase alignment”, International Standard Organization, ISO/IEC JTC1/SC29/WG11/M2381, Stockholm, Sweden, Jul. 21-25, 1997.

[16]J. Li and S. Lei, “Proposal of core experiment Z2: spatial and quality scalability”, International Standard Organization, ISO/IEC JTC1/SC29/ WG11/M2037, Bristol, UK, Apr. 5-11, 1997.

[17]J. Li and S. Lei, “Improvements of core experiment Z1: efficient coding of textures”, International Standard Organization, ISO/IEC JTC1/SC29/WG11 /M2036, Bristol, UK, Apr. 5-11, 1997.

[18]J. Li and S. Lei, “Improvements of core experiment T1: wavelet coding of I pictures'', International Standard Organization, ISO/IEC JTC1/SC29/WG11/ M2035, Bristol, UK, Apr. 5-11, 1997.