Jiasong Wu
City:
Nanjing
State/Province:
Jiangsu
Country:
China
Current Affiliation:
[1]Laboratory of Image Science and Technology,Southeast University, 210096, Nanjing, China
[2]INSERM, U642, Rennes, F-35000, France
[3]Laboratoire Traitement du Signal et de l'Image (LTSI), Université de Rennes 1, 35000 Rennes, France
[4]Centre de Recherche en
Information Biomédicale Sino-français (CRIBs)
[2]INSERM, U642, Rennes, F-35000, France
[3]Laboratoire Traitement du Signal et de l'Image (LTSI), Université de Rennes 1, 35000 Rennes, France
[4]Centre de Recherche en
Information Biomédicale Sino-français (CRIBs)
Current Position:
Ph.D. Candidate
Career Highlights:
[1]May 2008-present, Southeast University and University of Rennes 1 Joint Ph.D. candidate Lab. Traitement du Signal et de l’Image, Inserm U 642, Université de Rennes 1, Rennes 35042, France.
[2]Mar. 2007-present, Ph.D. Candidate in Biomedical Engineering,Lab of Image Science and Technology, School of Biological Science and Medical Engineering, Southeast University, 210096 Nanjing, China
[3]Sep. 2005- Mar. 2007,M.S. Candidate in Biomedical Engineering,Lab of Image Science and Technology, School of Biological Science and Medical Engineering, Southeast University, 210096 Nanjing, China
- Mar. 2007: M.S.-Ph.D. combined academic program graduate student
[4]Sep. 2001-Jul. 2005, B.S. in Biomedical Engineering,School of Nuclear Science and Technology, Nanhua University, 421000 Hengyang, China
- Diploma: Obtained the B.S. Degree in the specialty of Biomedical Engineering on July 1, 2005.
-Thesis: SCM software design of gamma densitometer with the characteristic of transmitting liquid-flow
[2]Mar. 2007-present, Ph.D. Candidate in Biomedical Engineering,Lab of Image Science and Technology, School of Biological Science and Medical Engineering, Southeast University, 210096 Nanjing, China
[3]Sep. 2005- Mar. 2007,M.S. Candidate in Biomedical Engineering,Lab of Image Science and Technology, School of Biological Science and Medical Engineering, Southeast University, 210096 Nanjing, China
- Mar. 2007: M.S.-Ph.D. combined academic program graduate student
[4]Sep. 2001-Jul. 2005, B.S. in Biomedical Engineering,School of Nuclear Science and Technology, Nanhua University, 421000 Hengyang, China
- Diploma: Obtained the B.S. Degree in the specialty of Biomedical Engineering on July 1, 2005.
-Thesis: SCM software design of gamma densitometer with the characteristic of transmitting liquid-flow
Field of Research:
INFORMATION AND COMPUTING SCIENCES - Computation Theory and Mathematics - Analysis of Algorithms and Complexity
Professional Memberships:
The member of IEEE
Notable Grants/Projects:
[1]The Eiffel doctorate scholarship of excellence from the French Ministry of Foreign Affairs,2009-2010
[2]Chinese Government Award for Outstanding Self-financed Student Abroad,2010
[3]National Natural Science Foundation of China(60873048),Participant
[4]Natural Science Foundation of Jiangsu Province(BK2008279), Participant
[2]Chinese Government Award for Outstanding Self-financed Student Abroad,2010
[3]National Natural Science Foundation of China(60873048),Participant
[4]Natural Science Foundation of Jiangsu Province(BK2008279), Participant
Research Interests:
Fast algorithms for floating-point, integer, fractional, Sliding discrete orthogonal transforms (DOTs) and their applications (image compression, image retrieval, adaptive filtering etc)
Publication History:
Journal:
[1]J.S. Wu et al., Fast gray code kernel algorithm for sliding conjugate symmetric sequency-ordered complex Hadamard transform,IEEE Transactions on Signal Processing (Preparation).
[2]J.S. Wu, L. Wang, G. Yang, L. Senhadji, L. Luo, H.Z. Shu, Sliding conjugate symmetric sequency-ordered complex Hadamard transform: fast algorithm and applications,IEEE Transactions on Circuits and Systems-I: Regular Papers,2012,doi:10.1109/TCSI.2011.2173386.
[3]Z. Gui, Y. Ge, D.Y. Zhang, J.S. Wu, Generalized fast mixed-radix algorithm for the computation of forward and inverse MDCTs, Signal Processing, vol. 92, no. 2, pp. 363-373, 2012.
[4] J.S. Wu, H.Z. Shu, L. Wang, L. Senhadji, Fast algorithms for the computation of sliding sequency-ordered complex Hadamard transform, IEEE Transactions on Signal Processing.vol. 58, no. 11, pp. 5901-5909, Nov. 2010.
[5]J.S. Wu, H.Z. Shu, L. Senhadji, L.M. Luo, Mixed-radix algorithm for the computation of forward and inverse MDCTs, IEEE Transactions on Circuits and Systems-I: Regular Papers, vol. 56, no. 4, pp. 784-794, Apr. 2009.
[6]J.S.Wu, H.Z. Shu, L. Senhadji, L.M. Luo, Radix-3×3 algorithm for the 2-D discrete Hartley transform, IEEE Transactions on Circuits and Systems-II: Express Briefs, vol. 55, no. 6, pp. 566-570, Jun. 2008.
[7]J.S.Wu, H.Z. Shu, L. Senhadji, L.M. Luo, A fast algorithm for the computation of 2-D forward and inverse MDCT, Signal Processing, vol. 88, no. 6, pp. 1436-1446, Jun. 2008.
[8]H.Z. Shu, J.S. Wu, L. Senhadji, L.M. Luo, New fast algorithm for modulated complex lapped transform with sine windowing function, IEEE Signal Processing Letters, vol. 16, no. 2, pp. 93-96, Feb. 2009.
[9]H.Z. Shu, J.S.Wu, L. Senhadji, L.M. Luo, Radix-2 algorithm for the fast computation of type-III 3-D discrete W transform, Signal Processing, vol. 88, no. 1, pp. 210-215, Jan. 2008.
[10]L.Y. Jiang, H.Z. Shu, J.S. Wu, L. Wang, L. Senhadji, A novel split-radix fast algorithm for 2-D discrete Hartley transform, IEEE Transactions on Circuits and Systems-I: Regular Papers, vol. 57, no. 4, pp. 911-924, Apr. 2010.
[11] L.Y. Jiang, H.Z. Shu, J.S.Wu, L.M. Luo, A novel split-radix fast algorithm for the 3-D discrete Hartley transform, Chinese Journal of Electronics, vol. 36, no. 6, pp. 1252-1255, Jun. 2009. (in Chinese).
[12]Z.F. Dong, J.S. Wu, L. Wang, H.Z. Shu, Novel approach for fast computation of MDCT and IMDCT based on moments, Journal of Southeast University, vol. 39, no. 4, pp. 747-752, Jul. 2009. (in Chinese).
[13]Q. Zhou, J.S. Wu, Z.F. Dong, H.Z. Shu, A fast algorithm for computation of 3-D MDCT, Journal of Southeast University, vol. 40, no. 1, pp. 75-79, Jan. 2010. (in Chinese).
[14]J.S.Wu, X.L. Zhao, M.Q. Zhang, The design of single chip micyoco software of gamma densitometer with the characteristic of transmitting liquid-flow, Journal of Nanhua University, vol. 19, pp. 56-62, Sep. 2005. (in Chinese).
Conference:
[1]J.S. Wu, L. Wang, L. Senhadji, H.Z. Shu, Sliding conjugate symmetric sequency-ordered complex Hadamard transform: fast algorithm and applications. 18th European Signal Processing Conference (EUSIPCO), Aalborg, Denmark, pp.1742-1746, 23-27 August, 2010.
[2] J.S. Wu, L. Wang, H.Z. Shu, L. Senhadji, Direct computation of length-N DHT from three adjacent length-N/3 DHT coefficients. The 3rd International Congress on Image and Signal Processing(CISP), Yantai, China, vol. 7, pp. 3090-3093, 16-18 October, 2010.
[3] J.S. Wu, L. Wang, L. Senhadji, H.Z. Shu, Improved Radix-3 Decimation-in-Frequency Algorithm for the Fast Computation of Forward and Inverse MDCT.The 2nd IEEE/IET International Conference on Audio, Language and Image Processing (ICALIP),Shanghai, China, vol. 1, pp. 694-699, 23-25 November, 2010.(Oral presentation)
[4]Y. Zhang, J.S. Wu, H.Z. Shu, Robust watermarking using conjugate symmetric sequency-ordered complex Hadamard transform and normalization, The 3rd International Congress on Image and Signal Processing(CISP), Yantai, China, vol. 3, pp. 1176-1180, 16-18 October, 2010.
[5]Z.F. Dong, J.S. Wu, H.Z. Shu, Moment-based method for computing the two-dimensional discrete Hartley transform. Proc. SPIE, Medical Imaging, Parallel Processing of Images, and Optimization Techniques (MIPPR 2009), vol. 7497, Yichang, China, 2009. doi:10.1117/12.832576.
[1]J.S. Wu et al., Fast gray code kernel algorithm for sliding conjugate symmetric sequency-ordered complex Hadamard transform,IEEE Transactions on Signal Processing (Preparation).
[2]J.S. Wu, L. Wang, G. Yang, L. Senhadji, L. Luo, H.Z. Shu, Sliding conjugate symmetric sequency-ordered complex Hadamard transform: fast algorithm and applications,IEEE Transactions on Circuits and Systems-I: Regular Papers,2012,doi:10.1109/TCSI.2011.2173386.
[3]Z. Gui, Y. Ge, D.Y. Zhang, J.S. Wu, Generalized fast mixed-radix algorithm for the computation of forward and inverse MDCTs, Signal Processing, vol. 92, no. 2, pp. 363-373, 2012.
[4] J.S. Wu, H.Z. Shu, L. Wang, L. Senhadji, Fast algorithms for the computation of sliding sequency-ordered complex Hadamard transform, IEEE Transactions on Signal Processing.vol. 58, no. 11, pp. 5901-5909, Nov. 2010.
[5]J.S. Wu, H.Z. Shu, L. Senhadji, L.M. Luo, Mixed-radix algorithm for the computation of forward and inverse MDCTs, IEEE Transactions on Circuits and Systems-I: Regular Papers, vol. 56, no. 4, pp. 784-794, Apr. 2009.
[6]J.S.Wu, H.Z. Shu, L. Senhadji, L.M. Luo, Radix-3×3 algorithm for the 2-D discrete Hartley transform, IEEE Transactions on Circuits and Systems-II: Express Briefs, vol. 55, no. 6, pp. 566-570, Jun. 2008.
[7]J.S.Wu, H.Z. Shu, L. Senhadji, L.M. Luo, A fast algorithm for the computation of 2-D forward and inverse MDCT, Signal Processing, vol. 88, no. 6, pp. 1436-1446, Jun. 2008.
[8]H.Z. Shu, J.S. Wu, L. Senhadji, L.M. Luo, New fast algorithm for modulated complex lapped transform with sine windowing function, IEEE Signal Processing Letters, vol. 16, no. 2, pp. 93-96, Feb. 2009.
[9]H.Z. Shu, J.S.Wu, L. Senhadji, L.M. Luo, Radix-2 algorithm for the fast computation of type-III 3-D discrete W transform, Signal Processing, vol. 88, no. 1, pp. 210-215, Jan. 2008.
[10]L.Y. Jiang, H.Z. Shu, J.S. Wu, L. Wang, L. Senhadji, A novel split-radix fast algorithm for 2-D discrete Hartley transform, IEEE Transactions on Circuits and Systems-I: Regular Papers, vol. 57, no. 4, pp. 911-924, Apr. 2010.
[11] L.Y. Jiang, H.Z. Shu, J.S.Wu, L.M. Luo, A novel split-radix fast algorithm for the 3-D discrete Hartley transform, Chinese Journal of Electronics, vol. 36, no. 6, pp. 1252-1255, Jun. 2009. (in Chinese).
[12]Z.F. Dong, J.S. Wu, L. Wang, H.Z. Shu, Novel approach for fast computation of MDCT and IMDCT based on moments, Journal of Southeast University, vol. 39, no. 4, pp. 747-752, Jul. 2009. (in Chinese).
[13]Q. Zhou, J.S. Wu, Z.F. Dong, H.Z. Shu, A fast algorithm for computation of 3-D MDCT, Journal of Southeast University, vol. 40, no. 1, pp. 75-79, Jan. 2010. (in Chinese).
[14]J.S.Wu, X.L. Zhao, M.Q. Zhang, The design of single chip micyoco software of gamma densitometer with the characteristic of transmitting liquid-flow, Journal of Nanhua University, vol. 19, pp. 56-62, Sep. 2005. (in Chinese).
Conference:
[1]J.S. Wu, L. Wang, L. Senhadji, H.Z. Shu, Sliding conjugate symmetric sequency-ordered complex Hadamard transform: fast algorithm and applications. 18th European Signal Processing Conference (EUSIPCO), Aalborg, Denmark, pp.1742-1746, 23-27 August, 2010.
[2] J.S. Wu, L. Wang, H.Z. Shu, L. Senhadji, Direct computation of length-N DHT from three adjacent length-N/3 DHT coefficients. The 3rd International Congress on Image and Signal Processing(CISP), Yantai, China, vol. 7, pp. 3090-3093, 16-18 October, 2010.
[3] J.S. Wu, L. Wang, L. Senhadji, H.Z. Shu, Improved Radix-3 Decimation-in-Frequency Algorithm for the Fast Computation of Forward and Inverse MDCT.The 2nd IEEE/IET International Conference on Audio, Language and Image Processing (ICALIP),Shanghai, China, vol. 1, pp. 694-699, 23-25 November, 2010.(Oral presentation)
[4]Y. Zhang, J.S. Wu, H.Z. Shu, Robust watermarking using conjugate symmetric sequency-ordered complex Hadamard transform and normalization, The 3rd International Congress on Image and Signal Processing(CISP), Yantai, China, vol. 3, pp. 1176-1180, 16-18 October, 2010.
[5]Z.F. Dong, J.S. Wu, H.Z. Shu, Moment-based method for computing the two-dimensional discrete Hartley transform. Proc. SPIE, Medical Imaging, Parallel Processing of Images, and Optimization Techniques (MIPPR 2009), vol. 7497, Yichang, China, 2009. doi:10.1117/12.832576.
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Documents
| Date Uploaded | Name | Description | File | Ratings | Options |
| 2010-10-09 05:46AM | TSP-2010-wu | Fast algorithms for the computation of sliding sequency-ordered complex... | tsp-2010-wu.pdf |
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| 2009-07-25 20:57PM | TCASI-2009-Wu | Mixed-Radix Algorithm for the Computation of Forward and Inverse MDCTs | tcasi-2009-wu.pdf |
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