liuvia冬季新款女装

A. 吴仁彪的研究方向

主要研究方向包括： [1] Renbiao Wu, Zheng Bao, “Control of peak sidelobe level in adaptive arrays”, IEEE Transactions on Antennas and Propagation, Vol. 44, No. 10, October 1996, pp. 1341-1347.（SCI收录号: VK650，EI收录号： EIX96100382424）
[2] Renbiao Wu, Yuanliang Ma, Robert D. James, “Array pattern synthesis and robust beamforming for a complex sonar system”, IEE Proceedings-Radar, Sonar, and Navigation, Vol. 144, No. 6, December 1997, pp. 370-376（SCI收录号：ZQ540，EI收录号： EIX98024055807）.
[3] Renbiao Wu, Zheng Bao, “Array pattern distortion and remedies in space-time adaptive processing for airborne radar”, IEEE Transactions on Antennas and Propagation, Vol. 46, No. 7, July 1998, pp. 963-970. （SCI收录号：107ND，EI收录号：EIP98094367482）
[4] Renbiao Wu, Jian Li, “Time delay estimation via optimizing highly oscillatory cost functions”, IEEE Journal of Oceanic Engineering, Vol. 23, No. 3, July 1998, pp. 235-244. （SCI收录号：ZZ281，EI收录号：EIP98084311257）
[5] Jian Li, Renbiao Wu, “An efficient algorithm for time delay estimation”, IEEE Transactions on Signal Processing, Vol. 46, No. 8, August 1998, pp.2231-2235. （SCI收录号：104PE，EI收录号： EIX98084341057）
[6] Renbiao Wu, Zheng-She Liu, Jian Li, “Time-varying complex spectral analysis via recursive APES”, IEE Proceedings-Radar, Sonar, and Navigation, Vol. 145, No. 6, December 1998, pp.354-360. （SCI收录号：167JF，EI收录号： EIX99034610645）
[7] Renbiao Wu, Jian Li, Zheng-She Liu, “Super resolution time delay estimation via MODE-WRELAX”, IEEE Transactions on Aerospace and Electronic Systems, Vol. 35, No. 1, January 1999, pp.294-307. （SCI收录号：165DE，EI收录号：EIP99034595209）
[8] Zheng-She Liu, Renbiao Wu, Jian Li, “Complex ISAR imaging of maneuvering targets via the Capon estimator”, IEEE Transactions on Signal Processing, Vol. 47, No. 5, May 1999, pp.1262-1271. （SCI收录号： 187GK，EI收录号： EIX99064693497）
[9] Renbiao Wu, Jian Li, Zhaoqiang Bi, Petre Stoica, “SAR image formation via semi-parametric spectral estimation”, IEEE Transactions on Aerospace and Electronic Systems, Vol.35, No.4, October 1999, pp.1318-1333. （SCI收录号：256EZ，EI收录号： E2000025058861）
[10] Renbiao Wu, Jian Li, “Time delay estimation with multiple looks in colored noise”, IEEE Transactions on Aerospace and Electronic Systems, Vol.35, No.4, October 1999,pp.1354-1361. （SCI收录号：256EZ，EI收录号： E2000025058864）
[11] Zhaoqiang Bi, Renbiao Wu, Jian Li, Robert L. Williams, “Joint super resolution moving target feature extraction and stationary clutter suppression”, IEE Proceedings-Radar, Sonar, and Navigation, Vol.147, No.1, February 2000, pp.23-29. （SCI收录号：298LZ，EI收录号：E2000045108197）
[12] Nan Jiang, Renbiao Wu, Guoqing Liu, and Jian Li, “Clutter suppression and moving target parameter estimation for airborne phased array radar”, Electronic Letters, Vol.36, No.5, March 2000, pp.456-457. （SCI收录号：294FD，EI收录号：E2000035100019）
[13] Zhigang Su, Renbiao Wu, Delay and Doppler scale estimation of multiple moving targets via DS-WRELAX, Electronic Letters, Vol.36, No.9, April 2000, pp.827-828. （SCI收录号：314BN，EI收录号：E2000275185422）
[14] Renbiao Wu, Jian Li, “Autofocus and super resolution SAR image formation”, IEE Proceedings-Radar, Sonar, and Navigation,Vol.147, No.5, October 2000,pp.217-224. （SCI收录号：366JK，EI收录号： E2000115387174）
[15] Nan Jiang, Renbiao Wu, Jian Li, “Super resolution featute extraction of moving targets”, IEEE Transactions on Aerospace and Electronic Systems, Vol.37, No.3, July 2001, pp.781-793（SCI收录号：477VQ, EI收录号：E2002136899762）.
[16] Jian Li, Renbiao Wu, Victor C. Chen, “Robust autofocus algorithm for ISAR imaging of moving targets”, IEEE Transactions on Aerospace and Electronic Systems, Vol.37, No.3, July 2001, pp.1056-1069. （SCI收录号：477VQ, EI收录号：E2002136902629 ）
[17] Renbiao Wu, Antonne Clement, Jian Li, Erik G. Larsson, Marshall Bradley, James Habersat, and George Maksymonko, “Adaptive ground bounce removal”, Electronic Letters, Vol.37, No.20, September 2001, pp.1250-1252.（SCI收录号：482FJ, EI收录号：E2001476737869）
[18] Xi Li, Renbiao Wu, Jian Li, and Mark Sheplak, “Multi-frequency CW-based time delay estimation for proximity ultrasonic sensors”, IEE Proceedings-Radar, Sonar, and Navigation, Vol.149, No.2, April 2002, pp.53-59. （SCI收录号：559UV, EI收录号：E2002246978385）
[19] Renbiao Wu, Xi Li, and Jian Li, “Continous pavement profiling with ground penetrating radar”, IEE Proceedings-Radar, Sonar, and Navigation, Vol.149, No.3, June 2002, pp.183-193. （SCI收录号：593CA, EI收录号：E2002397109302）
[20] Renbiao Wu, Qian Gao, Jiaxue Liu, and Hong Gu, “Novel ATR scheme based on 1-D HRR profiles”, IEE Electronic Letters, Vol.38, No.24, November 2002, pp.1586-1588（SCI收录号：624FF, EI收录号：E2003027308353）
[21] Xi Li, Renbiao Wu, Srihari Rasmi, Jian Li, Louis N. Cattafesta III, Mark Sheplak, “An acoustic proximity ranging system for monitoring the cavity thickness”, IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, Vol.50, No.7, July 2003, pp.898-910 (SCI收录号：702EC, EI收录号：E2003387640711.)
[22] Renbiao Wu, Kunlong Gu, Jian Li, Marshall Bradley, James Habersat, and George Maksymonko, “Propagation velocity uncertainty on GPR SAR processing”, IEEE Transactions on Aerospace and Electronic Systems, Vol.39, No.3, July 2003, pp849-861.( SCI收录号：728NJ, EI收录号：E2003517786123 )
[23] Xi Li, Renbiao Wu, Srihari Rasmi, Jian Li, Louis N. Cattafesta III, Mark Sheplak, “Acoustic proximity ranging in the presence of secondary echoes”, IEEE Transactions on Instrumentation and Measurement, Vol.52, No.5, October 2003, pp.1593-1605.( SCI收录号：736EN, EI收录号：E2003487751878)
[24] Meng Xing, Renbiao Wu, Jinqiao Lan, and Zheng Bao, “Migration through resolution cell compensation in ISAR imaging”, IEEE Geoscience and Remote Sensing Letters, Vol.1, No.2, April 2004, pp.141-144（EI收录号：E2004228189512）
[25] Men Xing, Renbiao Wu, and Zheng Bao, “High resolution ISAR imaging of high speed moving targets”, IEE Proceedings-Radar, Sonar, and Navigation, Vol.152, No.2, April 2005, pp.58-67（SCI收录号：921FP EI收录号：E2005209098888）
[26] Zhisong Wang, Jian Li, and Renbiao Wu, “Time-delay- and time-reversal-based robust Capon beamformers for ultrasound imaging”, IEEE Transactions on Medical Imaging, Vol.24, No.10, October 2005, pp.1308-1322（SCI收录号：969LX EI收录号：E2005439435334）
[27] ]Guo B,Wang,Y,Li J,Stoica P,Wu R, “Microwave imaging via adaptive beamforming methods for breast cancer detection”, Journal of Electromagnetic Waves and Applications, Vol.20,No.1,pp.53-63,2006.(SCI 收录号 999YP EI收录号：: 06029641900)
[28] Feng Zhou, Renbiao Wu, Meng Xing, Zheng Bao, “Eigensubspace-Based Filtering with Application in Narrow-Band Interference Suppression for SAR,” IEEE GEOSCIENCE AND REMOTE SENSING LETTERS, VOL.4, NO.1, JANUARY 2007.
[29] Feng Zhou, Renbiao Wu, Meng Xing, Zheng Bao, “A Novel Approach for single channel SAR Ground Moving Target Imaging and Motion Parameter Estimation,” 已被IEE Proc. Radar, Sonar & Navigation录用。
[30] Qi Wang，Renbiao Wu, Meng Xing, and Zheng Bao, “A New Algorithm for Sparse Aperture Interpolation”, 已被IEEE GEOSCIENCE AND REMOTE SENSING LETTERS录用 [31] Renbiao Wu, Chongping Lin, Xingen Chen, Bianzhang Yu, “A novel separable approach to estimate two-dimensional angles of arrival with high resolution”, International Conference on Circuits and Systems, Shenzhen, June 1991, pp.588-591.（EI收录号：
EIX93030727699）
[32] Renbiao Wu, Zheng Bao, Yuhong Zhang, “Subarray -level adaptive spatial-temporal processing for airborne radar”, International Conference on Signal Processing, Beijing, October 26-30, 1993, pp.391-395.
[33] Renbiao Wu, Zheng Bao, “Training method in space-time adaptive processing with strong generalization ability”, The Record of the IEEE 1995 International Radar Conference, Washington D. C., May 8-11, 1995, pp.603-608. （EI收录号： EIX95092850005 ISTP收录号：BD58D）
[34] Renbiao Wu, Jian Li, “Novel time delay estimation methods with applications to ultra wideband ground penetrating radar”, Proceedings of SPIE. Vol. 3395: Radar Sensor Technology III, Orlando, Florida, April 11-15, 1998, pp.57-68. （EI收录号：E2002377086536 ISTP收录号：BL66L）
[35] Jian Li, Renbiao Wu, Zheng-She Liu, “Efficient super resolution time delay estimation techniques”, IEEE International Conference on Acoustics, Speech, and Signal Processing, Seatle, Washington D. C., May 12-15, 1998, pp.2473-2476. （EI收录号：EIX99084345440）
[36] Renbiao Wu, Zheng-She Liu, Jian Li, “Time-varying complex spectral estimation with applications to ISAR imaging”, 32nd Asilomar Conference on Signals, Systems, and Control, Pacific Grove. California, November 1-4, 1998, pp.14-18.（特邀论文）（EI收录号： EIX99034624548 ISTP收录号：BM43X）
[37] Li-Kang Yan, Jose C. Principe, Renbiao Wu, “A CFAR intensity pattern detector for MMW SAR images”, 32nd Asilomar conference on Signals, Systems, and Control, Pacific Grove. California, November 1-4, 1998, pp.974-978. （EI收录号：EIX99034624874 ISTP收录号：BM43X）
[38] Jian Li, Petre Stoica, Zhaoqiang Bi, Renbiao Wu, Edmund G. Zelnio, “A robust hybrid spectral estimation algorithm for SAR imaging”, 32nd Asilomar conference on Signals, Systems, and Control, Pacific Grove. California, November 1-4, 1998, pp.1322-1326.（特邀论文）（EI收录号： EIX99034624939 ISTP收录号：BM43X）
[39] Jian Li, Renbiao Wu, Zhaoqiang Bi, Petre Stoica, Edmund G. Zelnio, “A robust semi-parametric method for feature extraction and SAR image formation of targets consisting of trihedrals and dihedrals”, Proceedings of SPIE, Vol. 3721: Algorithms for Synthetic Aperture Radar Imagery VI, Orlando, Florida, April 5-9, 1999, pp.92-103. （EI收录号：EIX99104847570 ISTP收录号：BN775）
[40] Zhaoqiang Bi, Renbiao Wu, Jian Li, Robert L. Williams, “Simultaneous HRR feature extraction and Doppler shift estimation of moving targets with rigid bodies”, Proceedings of SPIE, Vol. 3721: Algorithms for Synthetic Aperture Radar Imagery VI, Orlando, Florida, April 5-9, 1999, pp.425-436. （EI收录号： EIX99104847600 ISTP：BN775）
[41] Jian Li, Renbiao Wu, and Victor C. Chen, “Robust autofocus algorithm for ISAR imaging of moving targets,” Proceedings of SPIE, Algorithms for Synthetic Aperture Radar Imagery VII, Orlando, Florida, April 24-28, 2000, pp.199-210. （EI收录号：E2000105364801 ISTP收录号:BQ82J)
[42] Zhigang Su, Renbiao Wu, and Jianping Yu, “Further results on the DS-WRELAX algorithm for the delay and Doppler scale estimation of multiple moving targets”, 2000 5th International Conference on Signal Processing Proceedings, August 21-25, 2000, Beijing, China, pp.201-205. （ISTP收录号： BR32Z）
[43] Zhigang Su, Renbiao Wu, Jiaxue Liu, Jie Liu, “A Robust Autofocus Algorithm for the 3-D Target Feature Extraction via Curvilinear SAR”, 2001 CIE International Conference on Radar Proceedings, October 15-18, 2001, Beijing, China, pp.644-648. （EI收录号：E2002126890886 ISTP收录号：BU74M）
[44] Kunlong Gu, Renbiao Wu, Jian Li, Marshall Bradley, James Habersat, and George Maksymonko, “SAR processing for GPSAR systems”, Proceedings SPIE Vol.4742: Detection and Remediation Technologies for Mines and Minelike Targets VII, Orlando, Florida, April 2002, pp.1050-1060. （EI收录号：E2002507274909 ISTP收录：BV54P ）
[45] Renbiao Wu, Zhisong Wang, and Jian Li, “Mainlobe and peak sidelobe control in adaptive arrays”, IEEE International Conference on Acoustics, Speech, and Signal Processing, Hong Kong, China, April 6-10, 2003, pp.325-328（EI收录号：E2003397649596 ISTP收录号：BX49C）
[46] Ping Han, Renbiao Wu, Yunhong Wang, and Zhaohua Wang, “An efficient SAR ATR approach,” IEEE International Conference on Acoustics, Speech, and Signal Processing, Hong Kong, China, April 6-10, 2003，pp.429-433（EI收录号：E2003397649000 ISTP收录：BX44V ）
[47] Renbiao Wu, Tang Li, “Robust Linear Prediction For Landmine Detection”，International Conference on Radar Systems, 18-22 October 2004, Toulouse, France
[48] Qian Gao, Renbiao Wu, Tang Li, and Jiaxue Liu, “A HRRP-ATR Method based on Adaptive Power Transform”，International Conference on Radar Systems, 18-22 October 2004, Toulouse, France
[49] Renbiao Wu , Jiaxue Liu, Qian Gao, Hongyu Li, and Bei Zhang, “Progress in the Research of Ground Bounce Removal for Landmine Detection with Ground Penetrating Radar,” PIERS 2005,August 22-26,Hangzhou.
[50] Renbiao Wu, Guangli Wang, and Minxin Zhang, “Quick determination of refraction points for GPR SAR imaging,” SPIE Defense & Security Symposium,28 March-1 April 2005,Orlando(Kissimmee),Florida USA.（EI收录号：E2005439428748 ISTP收录号：BCR67）
[51] Jiaxue Liu, Renbiao Wu, Tang Li, Hongyu Li, Bei Zhang, and Jingxiong Huang “Reference Data Selection for Ground Bounce Removal with Ground Penetrating Radar,” IRS 2005.
[52] Weikun He, Jiaxue Liu, and Renbiao Wu, “Localized parametric electromagnetic inversion for pavement profiling with ground penetrating radar,” PIERS 2005,August 22-26,Hangzhou.
[53] Qian Gao, Renbiao Wu, “Kernel ICA for Ground Bounce removal with GPR,” IRS 2005
[54] Haitao Liu, Xingqing Cheng, Daoben Li and Renbiao Wu, “A JOINT M-IQRD AND ML DETECTION ALGORITHM FOR V-BLAST,” Global Mobile Communication 2005, 2005.10, Chongqing, China.
[55] Xiaoguang Lu, Ping Han, Renbiao Wu, Jingxiong Huang, “A Novel Approach Based on Wavelet-ICA for SAR Image Speckle Suppression”, 2006 8th International Conference on Signal Processing Proceedings (ICSP’06, proceedings) ,Nov.16-20, Guilin China, 2006, pp2839~2842,
[56] Jinfeng Yang, Renbiao Wu, Yanjun Li,Ruihui Zhu, “Fast Contour Construction for Skin Regions”, 2006 8th International Conference on Signal Processing(ICSP’06, proceedings) Nov.16-20, Guilin China, 2006,pp1031-1034.
[57] Wei Huang, Dan Lu, Renbiao Wu and Zhigang Su, “A Novel Blind GPS Anti-jamming Algorithm Based on Subspace Technique”, 2006 8th International Conference on Signal Processing Proceedings (ICSP’06, proceedings) ,Nov.16-20, Guilin China, 2006, pp447~450,
[58] Lu,Dan, Wu Renbiao; Su Zhigang; Feng,Qing, “A Novel Roubust Cyclic Adaptive Beamforming Algorithm”, 2006 8th International Conference on Signal Processing Proceedings (ICSP’06, proceedings) Nov.16-20, Guilin China, 2006,pp463-466
[59] Qingyan Shi, Renbiao Wu, Shuyan Wang, “A Novel Approach to Blind Source Extraction Based on Skewness”, 2006 8th International Conference on Signal Processing Proceedings (ICSP’06, proceedings) Nov.16-20, Guilin China, 2006,pp3187-3190
[60] Wu Renbiao,Wang Zhisong,Lu Dan,Feng Qing,Li Jian, “Further Results on Peak Sidelobe Control in Adaptive Arrays”, Proceedings of 2006 CIE International conference on radar,Oct.16-19,Shanghai, China,2006,pp951-956
[61] Qian Gao, Tang Li,RenbiaoWu, “A Novel KICA Method for Ground Bounce Removal with GPR” Proceedings of 2006 CIE International conference on radar,Oct.16-19,Shanghai, China,2006,pp1058-1061
[62] Ping Han, Renbiao Wu, Jingxiong Huang, “A Novel Preprocessing Approach for SAR ATR”, Proceedings of 2006 CIE International Conference on Radar, Oct , 16-19, 2006 Shanghai, China, pp1462~1465,
[63] Ying Wang , Ping Han, Xiaoguang Lu, Renbiao Wu, Jingxiong Huang, “The Performance Comparison of Adaboost and SVM Applied to SAR ATR”, Proceedings of 2006 CIE International Conference on Radar , Oct , 16-19, 2006 Shanghai, China, pp1432~1435,
[64] Jiaxue Liu, Renbiao Wu, Tang Li and Bei Zhang “Novel Ground Bounce Removeal Algorithms Based on Non-homogeneous Detector”, Proceedings of 2006 CIE International Conference on Radar ,Oct, 16-19, 2006 Shanghai, China, pp1088-1091
[65] Ruihui Zhu,Jinfeng Yang, Renbiao Wu, Yanjun Li, “Iris Recognition Based on Local Feature Point Matching”, International Symposium on Communications and Information Technologies, Oct.18-20,2006,Bangkok,Thailand
[66] Yanjun Li, Jinfeng Yang, Renbiao Wu, Ruihui Zhu, “Efficient Object Tracking Based on Local Invariant Features”, International Symposium on Communications and Information Technologies, Oct.18-20,2006,Bangkok,Thailand
[67] Juan Wang, Qing Feng, Renbiao Wu, Zhigang Su, Jian Li，“Robust constant-beamwidth beamforming based on focusing approach for acoustic imaging,” International Sympo, sium on Communications and Information Technologies, Oct.18-20,2006,Bangkok,Thailand
[68] Lu Dan, Feng Qing,Wu Renbiao, “Survey on Interference Mitigation via Adaptive Array Processing in GPS”, Progress in Electromagnetics Research Symposium (PIERS 2006), MAR 26-29,2006,Cambridge,Massachusetts,USA. pp357-362(ISTP:BFD87)
[69] W.Liu，R.B.Wu, R.Langley,“Analysis and a Novel design of the beamspace broadband Adaptive array” Progress in Electromagnetics Research Symposium (PIERS 2006), MAR 26-29,2006,Cambridge,Massachusetts,USA. pp368-373(ISTP:BFD87)
[70] Zhao Wanyou， Xu Lifa，Wu Renbiao, “A simulation tool for space-time adaptive processing in GPS”, Progress in Electromagnetics Research Symposium (PIERS 2006), MAR 26-29,2006,Cambridge,Massachusetts,USA. pp363-367(ISTP:BFD87)
[71] Liu Jiaxue,Zhang Bei, Wu Renbiao, “GPR ground bounce removal methods based on Blind Source Separation”, Progress in Electromagnetics Research Symposium (PIERS 2006), MAR 26-29,2006,Cambridge,Massachusetts,USA. pp256-259(ISTP:BFD87)
[72] Yang, Jinfeng , Wu, Renbiao, Zhu, Ruihui; Li, Yanjun, “Contour construction based on adaptive grids”, 2nd International Conference on Natural Computation (ICNC 2006), SEP 24-28, 2006,Xi’an,China(SCI:BFH68,ISTP: BFH68)

B. 曹松的代表性论著

以下为近期以第一作者或通讯作者在SCI发表的论文：
2013年
Novel Synthesis of 1,4,5-Trisubstituted 1,2,3-Triazoles via a One-pot Three-Component Reaction of Boronic acids, Azides and Active methylene ketones
Jian Zhang, Guanyi Jin, Senhan Xiao, Jingjing Wu,Song Cao*
Tetrahedron, 2013, online
NiCl2(PCy3)2-catalyzed hydrodefluorination of fluoroarenes with LiAl(O-t-Bu)3H
Juan Xiao, Jingjing Wu, Wenwen Zhao,Song Cao*
J Fluorine Chem, 2013, online
2012年
One-pot Three Component Synthesis of Polyfluoroarylated ArylacetatesviaVNSAr-SNArReaction
Yang Xiong, Jingjing Wu, Senhan Xiao,Song Cao*
Chin J Chem2012, 30, 2747-2751
(Invited,Dedicated to the 60th Anniversary of East China University of Science and Technology)
One-Pot, Three-Component Synthesis of 1,4,5-Trisubstituted 1,2,3-Triazoles Starting from Primary Alcohols
Guanyi Jin, Jian Zhang, Dan Fu, Jingjing Wu,Song Cao*
Eur J Org Chem, 2012, 5446-5449
Synthesis ofunsymmetrical biaryl ethersthrough nickel-promotedcoupling ofpolyfluoroarenes with arylboronic acidsand oxygen
Jian Zhang, Jingjing Wu, Yang Xiong,Song Cao*
Chem Commun, 2012, 48, 8553-8555
Oxidation of benzylic methylenes to ketones with Oxone-KBr in aqueous acetonitrile under transition metal free conditions
Lixia Yin, Jingjing Wu, Juan Xiao,Song Cao*
Tetrahedron Letters, 2012, 53, 4418-4421
Synthesis and Insecticidal Activities of Novel Analogues of Flubendiamide Containing a Hexafluoroisopropanol Moiety
Mingxi Wu, Wenwen Zhao, Guanyi Jin, Qingchun Huang,Song Cao*
Chin J Chem2012, 30, 1310-1314
(Invited, Dedicated to Professor Jun Zhou on the occasion of his 80th birthday)
Highly efficient NiCl2/NiCl2(PCy3)2co-catalyzed hydrodefluorination of fluoroarenes and trifluorotoluenes with superhydride
Wenwen Zhao, Jingjing Wu,Song Cao*
Adv Synth Catal, 2012,354(4), 574-578
Synthesis of Difluoromethyl-Containing α-Acyloxycarboxamide Derivatives through a Passerini Reaction and Desulfonylation
Jingjing Wu, Wenwen Zhao,Song Cao*
Eur J Org Chem, 2012, 1380–1387
2011年
Synthesis of novelgem-difluoromethylene-containing 1,2,3-triazoles via click reaction
Wenwen Zhao, Hui Li, Jian Zhang,Song Cao*
Chin J Chem2011,29,2763-2768
(Invited, Dedicated to Professor Weiyuan Huang on the occasion of his 90th birthday)
Nickel-Catalyzed Hydrodefluorination of Fluoroarenes and Trifluorotoluenes with Superhydride (Lithium Triethylborohydride)
Jingjing Wu andSong Cao*
ChemCatChem,2011, 3(10), 1582-1586
Novel synthesis of pseudopeptides bearing a difluoromethyl group by Ugi reaction and desulfanylation
Jingjing Wu, Hui Li,Song Cao*
Beilstein J Org Chem,2011, 7, 1070–1074
(Invited, Thematic Series: Multicomponent Reaction)
ZnCl2-catalyzed hydrodefluorination of gem-difluoromethylene derivatives with lithium aluminum hydride
Jianhang Cheng, Jingjing Wu,Song Cao*
Tetrahedron Letters, 2011, 52, 3481-3484
Novel synthesis of difluoromethyl-containing 1,4-disubstituted 1,2,3-triazoles via a click-multicomponent reaction and desulfanylation strategy
Jian Zhang, Jingjing Wu, Li Shen, Guanyi Jin,Song Cao*
Adv Synth Catal, 2011, 353(4), 580-584
One-pot synthesis of difluoromethyl-containing dihydropyrimidinones catalyzed by Yb(PFO)3under solvent and dehydrating agent free conditions
Mingxi Wu, Jinlong Yu, Wenwen Zhao, Jingjing Wu,Song Cao*
J Fluorine Chem, 2011, 132, 155-159
Non-catalytic conversion of C-F bonds ofgem-difluoromethylene derivatives to C-H bonds with lithium aluminum hydrideunder room temperature
JingJing Wu, JianHang Cheng, Jian Zhang, Li Shen, XuHong Qian andSong Cao*
Tetrahedron, 2011, 67,285-288
2010年
K2CO3-assisted one-pot sequential synthesis of 2-trifluoromethyl-6-difluoromethylpyridine-3,5-dicarboxylates under solvent-free conditions
Li Shen,Song Cao*, Jingjing Wu, Hui Li, Jian Zhang, Mingxi Wu, Xuhong Qian*
Tetrahedron Letters, 2010, 51, 4866-4869
A mild and efficient synthesis of monofluorinateda-lactam pseudopeptides via a novel dehydrofluorination of Ugi procts
Nianjin Liu,Song Cao*, Jingjing Wu, Li Shen, Jinlong Yu, Jian Zhang, Hui Li, Xuhong Qian*
Mol Divers, 2010, 14, 501-506
An efficient three-component domino synthesis of difluoromethyl-containing 1,4-dihydropyridines under solvent and catalyst free conditions
Hui Li, Jinlong Yu,Song Cao*, Li Shen, Mingxi Wu, Jianhang Cheng, Xuhong Qian*
ScienceChinaChemistry, 2010, 53(7), 1509-1513
Antagonism of 4-substituted 1,4-dihydropyridine-3,5-dicarboxylates toward voltage-dependent L-type Cachannels CaV1.3 and CaV1.2
Che-Chien Chang,Song Cao, Soosung Kang, Li Kai, Xinyong Tian, Prativa Pandey, Sara F. Dunne, Chi-Hao Luan, D. James Surmeier, Richard B. Silverman (第二作者)
Bioorg Med Chem, 2010, 18, 3147-3158
A General Strategy for Construction of Difluoromethyl Compound Library and its Application in Synthesis of Pseudopeptides bearing Terminal Difluoromethyl Group
Jingjing Wu,Song Cao*, Nianjin Liu, Li Shen, Jinlong Yu, Jian Zhang, Hui Li and Xuhong Qian
Org Biomol Chem, 2010, 8, 2386-2391
Synthesis and Insecticidal Activity of Heptafluoroisopropyl-Containing Benzoylphenylurea Structures
Jian Zhang, Xiuhong Tang, Isaac Ishaaya,Song Cao*, Jingjing Wu, Jinlong Yu, Hui Li, Xuhong Qian
J Agric Food Chem,2010, 58(5), 2736-2740
2009年
Multicomponent Reactions Based on Fluoro-ContainingBuilding Blocks
Jingjing Wu andSong Cao*
Curr Org Chem, 2009, 13(18), 1791-1840
(Invited, Guest Editor, Thematic Series: Multicomponent Reaction)
A revisit to the Hantzsch reaction: Unexpected procts beyond 1,4-dihydropyridines
Li Shen,Song Cao*, Jingjing Wu, Jian Zhang, Hui Li, Nianjin Liu and Xuhong Qian*
Green Chemistry,2009, 11, 1414-1420
New gem-difluoromethylene-containing isocyanide as a useful building block for the synthesis of difluorinated pseudopeptides via Ugi reaction
Nianjin Liu,Song Cao*Li Shen, Jingjing Wu, Jinlong Yu, Jian Zhang, Hui Li, Xuhong Qian*
Tetrahedron Letters, 2009, 5, 1982-1985
2008年
One-Pot Synthesis of Trifluoromethyl-Containing Pyrazoles via Sequential Yb(PFO)3- Catalyzed Three-Component Reaction and IBX-Mediated Oxidation
Li Shen, Jian Zhang,Song Cao*, Jinlong Yu, Nianjin Liu, Jingjing Wu, Xuhong Qian*
Synlett2008, 19, 3058-3062
Ytterbium (III) Perfluorooctanoate-catalyzed One-pot Three-component Synthesis of Fully Substituted Pyrazoles under Solvent-free Conditions
Li Shen,Song Cao*, Nianjin Liu,Jingjing Wu, Xin Feng, Xuhong Qian*
Synlett2008, 9, 1341-1344
One-Pot Three Component Synthesis of Heteroaryled arylacetates via VNSAr-SN Reaction using N-Methylpyrrolidone as General Solvent
Song Cao*, Jingjing Wu, Lina Li, Longjie Zhu, Jian Zhang, Jinlong Yu, Xuhong Qian
Org Biomol Chem, 2008, 6 (7), 1293-1297
Solvent-Free Ugi Four-Component Condensation: Application to Synthesis of Philanthotoxins-12 Analogues
Nianjin Liu,Song Cao*, Jingjing Wu, Jinlong Yu, Li Shen, Xin Feng and Xuhong Qian*
Tetrahedron, 2008, 64(18), 3877-4142
Synthesis of Thiohydantoins under One-Pot Three-Component Solvent-Free Conditions
Song Cao*, Longjie Zhu, Chuanmeng Zhao, Xiuhong Tang, Huajun Sun, Xin Feng, Xuhong Qian
Monatshefte fur Chemie, 2008, 139, 923-926
2007-2001年
An Efficient and Practical Method for the Synthesis of 1-(2,6-Difluorobenzoyl)-3-[2’-alkyl-3’- oxopyridazin-4’-yl]ureas as Potential Chitin Synthesis Inhibitors
SongCao, Deli Lu, Chuanmeng Zhao, LinaLi,Qingchun Huang,XuhongQian*
Monatshefte fur Chemie, 2006, 137(6), 779-784
Syntheses, Antifeedants and QSAR Analysis of New Oxa(thia)diazolyl 3(2H)-Pyridazinones
Song Cao, Na Wei, Chuanmeng Zhao, Lina Li, Qingchun Huang, Xuhong Qian*
J of Agric and Food Chem, 2005, 53, 3120-3125
Synthesis and Antifeedant Activity of New Oxadiazolyl 3(2H)-Pyridazinones
Song Cao, Xuhong Qian*, Gonghua Song, Bing Chai, Zhisheng Jiang
J of Agric and Food Chem, 2003, 51, 152-155
Synthesis of 3-Aryl-1,3,5-pentanetricarboxylic acid trialkyl esters via a Tandem Addition- Rearrangement-Addition Reaction
Song Cao*, Zheng Zhang, Ai-Long Fan,Zi-Ming Huang
Monatshefte fur Chemie, 2003, 134, 529-532
Syntheses and insecticidal activity of new 2-(5-(trifluoromethyl)pyridyloxymethyl)-1,3,4– oxadiazoles
Song Cao, Xuhong Qian*, Gonghua Song, Qingchun Hung
J of Fluorine Chem, 2002, 117, 63-66
N’-tert-butyl-N’-aroyl-N-(alkoxycarbonylmethyl)-N-aroylhydrazines, A Novel Nonsteroidal Ecdysone Agonist: Syntheses , Conformational and Crystal Structure Analysis
Song Cao, Xuhong Qian*, Gonghua Song
Canadian J of Chem, 2001, 79, 272-278
A Novel and Practical Amination of 4,5-Dichloropyridazinones via Hydrazine Hydrate Rection
Song Cao, Xuhong Qian*, Gonghua Song, Xiayu Huang
Chemistry Letters, 2001, 1, 54-55

C. 张盛平的学术论文

Shengping Zhang, Huiyu Zhou, Feng Jiang, Xuelong Li, Robust visual tracking using structurally ran-dom projection and weighted least squares, IEEE Transactions on Circuits and Systems for Video Technology(TCSVT), DOI:10.1109/TCSVT.2015.2406194
Shengping Zhang, Shiva Kasiviswanathan, Pong C Yuen, Mehrtash Harandi, Online Dictionary Learning on Symmetric Positive Definite Manifolds with Vision Applications, The Twenty-Ninth AAAI Conference on Artificial Intelligence (AAAI 2015), accepted
Shengping Zhang, Shiva Kasiviswanathan, Pong C Yuen, Mehrtash Harandi, Online Dictionary Learningon Symmetric Positive Definite Manifolds with Vision Applications, The Twenty-Ninth AAAI Conference on Artificial Intelligence (AAAI 2015), accepted Feng Jiang, Shengping Zhang, Shen Wu, Yang Gao, Debin Zhao, Multi-layered Gesture Recognition withKinect, Journal of Machine Learning Research (JMLR), accepted
Shengping Zhang, Hongxun Yao, Xin Sun, Kuanquan Wang, Jun Zhang, Xiusheng Lu, Yanhao Zhang, Action recognition based on overcomplete independent component analysis, Information sciences, 281:635–647,2014
Shengping Zhang, Huiyu Zhou, Baochang Zhang, Zhenjun Han, Yuliang Guo, “Signal, image and video pro-cessing” special issue: Semantic representations for social behavior analysis in video surveillance systems,Signal Image and Video Processing, 8(1):73–74, 2014
Lin Zeng, Shengping Zhang, Jun Zhang, Yunlu Zhang, Dynamic image mosaic via SIFT and dynamic pro-gramming, Machine Vision and Applications, 25(5):1271–1282, 2014
Feng Jiang, Shengping Zhang, Bo-Wei Chen, Kun Li, Debin Zhao, Image Restoration via Multi-Prior Col-laboration, 12th Asian Conference on Computer Vision (ACCV 2014), accepted
Yanhao Zhang, Shengping Zhang, Qingming Huang, Thomas Serre, Learning Sparse Prototypes for Crowd Perception via Ensemble Coding Mechanisms, ECCV 2014 5th International Workshop on Human Behavior Understanding (HBU 2014), pp. 86–100, 2014 Shengping Zhang, Hongxun Yao, Xin Sun, Xiusheng Lu, Sparse Coding Based Visual Tracking: Review andExperimental Comparison, Pattern Recognition, 46(7):1772–1788, 2013
Shengping Zhang, Hongxun Yao, Huiyu Zhou, Xin Sun, Shaohui Liu,Robust Visual Tracking Based on Online Learning Sparse Representation,Neurocomputing, 100(1):31-40, 2013【SCI&EI】
Xun Tang, Shengping Zhang, Hongxun Yao, Sparse Coding Based Motion Attention for Abnormal EventDetection, International Conference on Image Processing (ICIP 2013), pp. 3602–3606, 2013
Xuesong Jiang, Hongxun Yao, Shengping Zhang, Xiusheng Lu, Wei Zeng, Night Video Enhancement Using Improved Dark Channel Prior, International Conference on Image Processing (ICIP 2013), pp. 553–557,2013
Lin Zeng, Weigang Zhang,Shengping Zhang, Dingwen Wang,Video image mosaic implement based on planar-mirror-based catadioptric system,Signal Image and Video Processing, accepted.DOI 10.1007/s11760-012-0413-2 Shaohui Liu, Hongxun Yao, Shengping Zhang, Wen Gao,A Progressive Quality Hiding Strategy Based on Equivalence Partitions of Hiding Units,LNCS Transaction on Data Hiding and Multimedia Security, Volumn 6730, pp. 58–82, 2011
Xin Sun, Hongxun Yao, Shengping Zhang,A Novel Supervised Level Set Method for Non-Rigid Object Tracking,International Conference on Computer Vision and Pattern Recognition(CVPR 2011), pp.3393–3400, 2011【EI&ISTP】
Baochang Zhang, Shengping Zhang, Jianzhuang Liu,Sparse Regression Analysis for Object Recognition,IEEE International Conference on Image Processing(ICIP 2011), pp.2381-2384, 2011【EI&ISTP】
Xin Sun, Hongxun Yao, Shengping Zhang,Contour Tracking Via On-line Discriminative Appearance Modeling Based Level Sets,IEEE International Conference on Image Processing(ICIP 2011),pp.2317-2320,2011【EI&ISTP】
Zhongqian Sun, Hongxun Yao, Shengping Zhang, Xin Sun,Robust Visual Tracking via Context Objects Computing,IEEE International Conference on Image Processing(ICIP 2011), pp.509-512,2011【EI&ISTP】
Xin Sun, Hongxun Yao, Shengping Zhang,Robust Object Tracking via Inertial Potential based Mean Shift,ACM International Conference on Internet Multimedia Computing and Service(ICIMCS 2011), pp.178-181,2011【EI】 Shengping Zhang, Junpeng Wu, Tian Yuan, Shaohui Liu, Xin Sun,Robust Visual Tracking Based on Occlusion Detection and Particle Redistribution,ACM International Conference on Internet Multimedia Computing and Service(ICIMCS 2010), Harbin, China, December 30-31, 2010: 159-162【EI】
Shengping Zhang, Hongxun Yao, Xin Sun, Shaohui Liu,Robust object tracking based on sparse representation,SPIE International Conference on Visual Communications and Image Processing(VCIP 2010), Huang Shan, An Hui, China, Jul.11-14, 2010: 77441N-1-8【EI】
Shengping Zhang, Hongxun Yao, Shaohui Liu,Partial Occlusion Robust Object Tracking Using An Effective Appearance Model,SPIE International Conference on Visual Communications and Image Processing(VCIP 2010), Huang Shan, An Hui, China, Jul.11-14, 2010: 77442U-1-8【EI】
Shengping Zhang, Hongxun Yao, Peipei Gao,Robust Object Tracking Combining Color and Scale Invariant Features,SPIE International Conference on Visual Communications and Image Processing(VCIP 2010), Huang Shan, An Hui, China, Jul.11-14, 2010: 77442R-1-8【EI】
Shengping Zhang, Hongxun Yao, Shaohui Liu,Robust Visual Tracking Using Feature-based Visual Attention,International Conference on Acoustics, Speech, and Signal Processing(ICASSP 2010), Dallas, Texas, USA, March 14-19, 2010: 1150-1153【EI】
Zhisheng Xu, Shengping Zhang, Julong Pan, Xin Sun, Shaohui Liu,Robust visual tracking combining global and local appearance models,ACM International Conference on Internet Multimedia Computing and Service(ICIMCS 2010), Harbin, China, December 30-31, 2010: 155-158【EI】
Xin Sun, Hongxun Yao, Shengping Zhang,On-Line Discriminative Appearance Modeling for Robust Object Tracking,International Conference on Pervasive Computing, Signal Processing and Applications(PCSPA 2010), Harbin, China, September 17-19, 2010: 78-81【EI】
Xin Sun, Hongxun Yao, Shengping Zhang,A Refined Particle Filter Method for Contour Tracking,SPIE International Conference on Visual Communications and Image Processing(VCIP 2010), Huang Shan, An Hui, China, Jul.11-14, 2010: 77441M-1-8【EI】
Shaohui Liu, Hongxun Yao, Shengping Zhang, Wen Gao,A Steganography Strategy Based on Equivalence Partitions of Hiding Units,IEEE International Conference on Multimedia & Expo(ICME 2010), Suntec, Singapore, Jul. 19-23, 2010: 1299-1304【EI】
Xin Sun, Hongxun Yao, Shengping Zhang,Adaptive Particle Filter Based on Energy Filed for Robust Object Tracking in Complex Scenes,Pacific-Rim Conference on Multimedia(PCM 2010), Shanghai, China, September 21-24, 2010: 437-448【EI】
Shaohui Liu, Feng Shi, Jicheng Wang, Shengping Zhang,An Improved Spatial Spread-Spectrum Video Watermarking,International Conference on Intelligent Computation Technology and Automation(ICICTA 2010), Changsha, China, May 11-12, 2010: 587-590【EI】
Feng Shi, Shaohui Liu, Hongxun Yao, Yan Liu, Shengping Zhang,Scalable and Credible Video Watermarking Towards Scalable Video Coding,Pacific-Rim Conference on Multimedia(PCM 2010), Shanghai, China, September 21-24, 2010: 697-708【EI】
Haibo Liu, Changjian Zhou, Jing Shen, Pingke Li, Shengping Zhang,Video Caption Detection Algorithm Based on Multiple Instance Learning,International Conference on Internet Computing for Science and Engineering(ICICSE 2010), 2010: 20-24. Shengping Zhang, Hongxun Yao, Shaohui Liu,Dynamic Background Subtraction Based on Local Dependency Histogram,International Journal of Pattern Recognition and Artificial Intelligence(IJPRAI) Volume 23, Number 7, pp. 1397-1419, 2009 【SCI&EI】
Shengping Zhang, Hongxun Yao, Shaohui Liu,Spatial-temporal Nonparametric Background Subtraction in Dynamic Scenes,IEEE International Conference on Multimedia & Expo(ICME 2009), New York, USA, June 28–July 3, 2009: 518–521【EI&ISTP】
Qin Cui, Peng Liu, Shengping Zhang, Jiafeng Liu, Xianglong Tang,Moving Objects Detection Exploiting Spatial and Temporal Cues in Dynamic Scenes,Journal of Natural Science of Heilongjiang University, Volume 26, Number 6, 781-784, 2009.(In chinese) Shengping Zhang, Hongxun Yao,A Novel Feature-level Multiple HMMs Classifier for Lipreading Based on Ada-Boost Gabor Kernels Selection,International Conference on Computer Vision，Pattern Recognition and Image Processing(CVPRIP 2008), Shenzhen, China, pp. 1-6, December 15-20, 2008. 【ISTP】
Shengping Zhang, Hongxun Yao, Shaohui Liu,Dynamic Background Subtraction Based on Local Dependency Histogram,The Eighth IEEE International Workshop on Visual Surveillance(VS 2008), Marseille, France, October 17, 2008: 1-8.
Shengping Zhang, Hongxun Yao, Shaohui Liu, Xilin Chen, Wen Gao,A Covariance-based Method for Dynamic Background Subtraction,IEEE International Conference on Pattern Recognition(ICPR 2008), Florida, USA, December 8–11, 2008: 3141-3144【EI&ISTP】
Shengping Zhang, Hongxun Yao, Shaohui Liu,Dynamic Background Modeling and Subtraction Using Spatio-temporal Local Binary Patterns,IEEE International Conference on Image Processing(ICIP 2008), California, USA, October 12–15, 2008: 1556-1559【EI&ISTP】 Shengping Zhang, Hongxun Yao, Yuqi Wan, Dan Wang,Combining Global and Local Classifiers for Lipreading,The Second International Conference on Affective Computing and Intelligent Intelligence(ACII 2007) Lisbon, Portugal, September 12–14, 2007: 733-744【ISTP】

D. 刘明珠的论著成果

[1]M.Z.Liu, K.Dekker, M.N.Spijker Suitability of Runge-Kutta Methods Journal of Computational and Applied Mathematics, 1987,V20, P307-315.
[2]M.Z.Liu, J.F.B.M.Kraaijevanger On the solvability of the Systems of Equations Arising in Implicit Runge-Kutta Methods BIT, 1988,V28, P825-838.
[3]M.Z.Liu A note on the Stability of Rational Runge-Kutta Methods Computing, 1989,V42, P329-339.
[4]M.Z.Liu, M.N.Spijker The Stability of the -methods in the Numerical Solution of Delay Differential Equations IMA Journal of Numerical Analysis, 1990, V10, P31-48.
[5]GuangDi Hu, GuangDa Hu, MingZhu Liu Estimation of Numerically Stable Step-Size for Neutral Delay Differential Equations Via Spectral Radius Journal of Computational and Applied Mathematics, 1997,V78, P311-316.
[6]吴英全，王建波，刘明珠 改进的FP学习和综合方法 软件学报1998,V9,N11,P893-875.
[7]JingJun Zhao, MingZhu Liu The Stability of the -methods for Delay Differential Equations Journal of Computational Mathematics,1999,V17,N4,P441-448.
[8]Birama Sory Sidibe, Ming-zhu Liu Asymptotic stability for Gauss methods for neutral delay differential equations Journal of Computational Mathematics, 2002, V20,N2,P217-224.
[9]Xiaohua Ding, Mingzhu Liu Convergence aspects of step-parallel iteration of Runge--Kutta methods for delay differential equations BIT, 2002,V42,N3.
[10]李冬松，刘明珠 Radau-IIA方法对比例延迟微分方程的渐进稳定性 系统仿真学报，2002，V14,N6,P704-706。

E. 黄晓宇的代表论著

1.Aishun Ding, Guolin Lu, Hao Guo,* Xingliang Zheng, Xiaoyu Huang* “SET-LRP synthesis of PMHDO-g-PNIPAM well-defined amphiphilic graft copolymer” J. Polym. Sci. Polym. Chem
2.Guolin Lu, Yongjun Li, Hongsheng Gao, Hao Guo,* Xingliang Zheng, Xiaoyu Huang* “Synthesis of PMHDO-g-PDEAEA well-defined amphiphilic graft copolymer via successive living coordination polymerization and SET-LRP” J. Polym. Sci. Polym. Chem
3.Yan Deng, Sen Zhang, Guolin Lu,* Xiaoyu Huang* “Constructing well-defined star graft copolymers”, Polym. Chem.
4.Xiuyu Jiang, Yongjun Li,* Guolin Lu, Xiaoyu Huang* “A novel poly(N-vinylcaprolactam)-based well-defined amphiphilic graft copolymers synthesized by successive RAFT and ATRP” Polym. Chem
5.Guolin Lu, Yongjun Li, Bin Dai,* Caixia Xu, Xiaoyu Huang* “Synthesis and association behavior of a well-defined amphiphilic graft copolymers bearing polyallene-based backbone and poly(2-(dimethylamino)ethyl methacrylate) side chains” J. Polym. Sci. Polym. Chem
6.Yongjun Li, Guolin Lu, Bin Dai,* Caixia Xu, Xiaoyu Huang* “Constructing novel double-bond-containing well-defined amphiphilic graft copolymers via successive Ni-catalyzed living coordination polymerization and SET-LRP” J. Polym. Sci. Polym. Chem
7.Xuemei Song, Wenqiang Yao, Guolin Lu,* Yongjun Li, Xiaoyu Huang* “tBHBMA: A novel trifunctional acrylic monomer for convenient synthesis of PAA-g-PCL well-defined amphiphilic graft copolymer” Polym. Chem
8.Guolin Lu, Yongjun Li, Hao Guo,* Weiyuan Du, Xiaoyu Huang* “SET-LRP synthesis of novel polyallene-based well-defined amphiphilic graft copolymers in acetone”, Polym. Chem
9.Xiuyu Jiang, Guolin Lu, Chun Feng, Yongjun Li,* Xiaoyu Huang* “Poly(acrylic acid)-graft-poly(N-vinylcaprolactam): a novel pH and thermo al-stimuli responsive system”, Polym. Chem.
10.Sujuan Zhai, Xuemei Song, Chun Feng, Xiuyu Jiang, Yongjun Li,* Guolin Lu, Xiaoyu Huang* “Synthesis of α-helix-containing PPEGMEA-g-PBLG well-defined amphiphilic graft copolymer by sequential SET-LRP and ROP”, Polym. Chem.
11.Chun Feng, Guolin Lu, Yongjun Li, Xiaoyu Huang* “Self-assembly of amphiphilic homopolymers bearing ferrocene and carboxyl functionalities: effect of polymer concentration, β-cyclodextrin and length of alkyl linker” Langmuir
12.Zhanzhan Liu, Yongjun Li, Yang Yang, Yongsheng Li,* Xiaoyu Huang* “ATNRC/SET-NRC synthesis of graphene/polyisobutylene nanocomposites” J. Polym. Sci. Polym. Chem
13.Sen Zhang, Hao Liu, Yan Deng, Xiaoyu Huang* “A novel semi-fluorinated graft copolymer containing perfluorocyclobutyl aryl ether-based backbone”, J. Fluorine Chem
14.Sujuan Zhai, Jing Shang, Dong Yang, Songyang Wang, Jianhua Hu,* Guolin Lu, Xiaoyu Huang* “Successive SET-LRP and ATRP synthesis of ferrocene-based PPEGMEA-g-PAEFC well-defined amphiphilic graft copolymer”, J. Polym. Sci. Polym. Chem
15.Yaogong Li, Ming Du, Yaqin Zhang, Yongjun Li, Long Sui,* Guolin Lu, Xiaoyu Huang* “ATNRC and SET-NRC synthesis of PtBA-g-PEO well-defined amphiphilic graft copolymers”, J. Polym. Sci. Polym. Chem.
16.Yan Deng, Jin Zhong Zhang, Yongjun Li, Jianhua Hu,* Dong Yang, Xiaoyu Huang* “Thermo-responsive graphene oxide-PNIPAM nanocomposites with controllable grafting polymer chains via moderate in situ SET-LRP”, J. Polym. Sci. Polym. Chem
17.Yaogong Li, Ming Du, Yongjun Li, Long Sui,* Guolin Lu, Xiaoyu Huang* “Unprecedented diverse nanostructures formed by amphiphilic graft copolymer bearing PEO side chains synthesized by ATNRC”, J. Polym. Sci. Polym. Chem
18.Hao Liu, Yongjun Li, Sen Zhang, Dong Yang,* Jianhua Hu, Xiaoyu Huang* “A novel fluorine-containing graft copolymer bearing perfluorocyclobutyl aryl ether-based backbone and poly(methyl methacrylate) side chains”, J. Polym. Sci. Polym. Chem
19.Yaogong Li, Yaqin Zhang, Sujuan Zhai, Yan Deng, Huiming Xiong,* Guolin Lu, Xiaoyu Huang* “Synthesis of starlike PtBA-g-PEO amphiphilic graft copolymer via highly efficient Cu-catalyzed SET-NRC reaction at ambient temperature”, J. Polym. Sci. Polym. Chem.
20.Chun Feng, Yongjun Li, Dong Yang, Jianhua Hu,* Xiaohuan Zhang, Xiaoyu Huang* “Well-defined graft copolymers: from the controlled synthesis to multipurpose applications”, Chem. Soc. Rev.
21.Yan Deng, Yongjun Li,* Jing Dai, Meidong Lang, Xiaoyu Huang* “An efficient way to functionalize graphene sheets with pre-synthesized polymer via ATNRC chemistry”, J. Polym. Sci. Polym. Chem
22.Xuemei Song, Yaqin Zhang, Dong Yang, Li Yuan, Jianhua Hu,* Guolin Lu, Xiaoyu Huang* “Convenient synthesis of thermo-responsive PtBA-g- PPEGMEMA well-defined amphiphilic graft copolymer without polymeric functional group transformation”, J. Polym. Sci. Polym. Chem
23.Sujuan Zhai, Xuemei Song, Dong Yang, Wulian Chen, Jianhua Hu,* Guolin Lu, Xiaoyu Huang* “Synthesis of well-defined pH-responsive PPEGMEA-g-P2VP double hydrophilic graft copolymer via sequential SET-LRP and ATRP”, J. Polym. Sci. Polym. Chem
24.Wenqiang Yao, Yongjun Li,* Sen Zhang, Hao Liu, Xiaoyu Huang* “Novel perfluorocyclobutyl aryl ether-based well-defined amphiphilic block copolymer”, J. Polym. Sci. Polym. Chem
25.Yan Deng, Yongjun Li,* Jing Dai, Meidong Lang, Xiaoyu Huang* “Functionalization of graphene oxide towards thermo-sensitive nanocomposites via moderate in situ SET-LRP”, J. Polym. Sci. Polym. Chem
26.Yaqin Zhang, Zhong Shen, Dong Yang, Chun Feng, Jianhua Hu,* Guolin Lu, Xiaoyu Huang* “Convenient synthesis of PtBA-g-PMA well-defined graft copolymer with tunable grafting density”, Macromolecules
27.Yaogong Li, Yaqin Zhang, Dong Yang, Yongjun Li, Jianhua Hu,* Chun Feng, Sujuan Zhai, Guolin Lu, Xiaoyu Huang* “PAA-g-PPO amphiphilic graft copolymer: synthesis and diverse micellar morphologies”, Macromolecules
28.Chun Feng, Yongjun Li, Dong Yang, Yaogong Li, Jianhua Hu,* Sujuan Zhai, Guolin Lu, Xiaoyu Huang* “Synthesis of well-defined PNIPAM-b-(PEA-g- P2VP) double hydrophilic graft copolymer via sequential SET-LRP and ATRP and its ‘schizophrenic’ micellization behavior in aqueous media”, J. Polym. Sci. Polym. Chem
29.Sujuan Zhai, Beidi Wang, Chun Feng, Yongjun Li, Dong Yang,* Jianhua Hu, Guolin Lu, Xiaoyu Huang* “Thermo-responsive PPEGMEA-g-PPEGEEMA well-defined double hydrophilic graft copolymer synthesized by successive SET- LRP and ATRP”, J. Polym. Sci. Polym. Chem
30.Yaogong Li, Yaqin Zhang, Dong Yang, Jianhua Hu,* Guolin Lu, Xiaoyu Huang* “Starlike PAA-g-PPO well-defined amphiphilic graft copolymer synthesized by ATNRC and SET-NRC reaction”, J. Polym. Sci. Polym. Chem.
31.Dong Yang, Liang Tong, Yongjun Li, Jianhua Hu,* Sen Zhang, Xiaoyu Huang* “A novel well-defined amphiphilic diblock copolymer containing perfluoro- cyclobutyl aryl ether-based hydrophobic segment”, Polymer
32.Yaqin Zhang, Yaogong Li, Yongjun Li, Dong Yang, Jianhua Hu,* Guolin Lu, Xiaoyu Huang* “An efficient way to tune grafting density of well-defined copolymers via an unusual Br-containing acrylate monomer”, J. Polym. Sci. Polym. Chem.
33.Hao Liu, Sen Zhang, Yongjun Li, Dong Yang,* Jianhua Hu, Xiaoyu Huang* “A novel perfluorocyclobutyl aryl ether-based graft copolymer via 2-methyl-1,4- bistrifluorovinyloxybenzene and styrene”, Polymer
34.Yongjun Li, Sen Zhang, Hao Liu, Qingnuan Li,* Wenxin Li, Xiaoyu Huang* “Synthesis and characterization of fluorine-containing PAA-b-PTPFCBPMA amphiphilic block copolymer”, J. Polym. Sci. Polym. Chem.
35.Chun Feng, Zhong Shen, Yongjun Li, Lina Gu, Yaqin Zhang, Guolin Lu, Xiaoyu Huang* “PNIPAM-b-(PEA-g-PDMAEA) double hydrophilic graft copolymer: synthesis and its application for preparation of gold nanoparticles in aqueous media”, J. Polym. Sci. Polym. Chem
36.Yongjun Li, Sen Zhang, Liang Tong, Qingnuan Li,* Wenxin Li, Guolin Lu, Hao Liu, Xiaoyu Huang* “Perfluorocyclobutyl-based methacrylate monomers: synthesis and radical polymerization”, J. Fluorine Chem
37.Lina Gu, Chun Feng, Dong Yang, Yaogong Li, Jianhua Hu,* Guolin Lu, Xiaoyu Huang* “PPEGMEA-g-PDEAEMA: double hydrophilic double-grafted copolymer stimuli-responsive to both pH and salinity”, J. Polym. Sci. Polym. Chem
38.Liang Tong, Zhong Shen, Dong Yang, Sheng Chen, Yongjun Li, Jianhua Hu,* Guolin Lu, Xiaoyu Huang* “PTPFCBBMA-b-PEG-b-PTPFCBBMA amphiphilic triblock copolymer: synthesis and self-assembly behavior”, Polymer
39.Xiaohuan Zhang, Zhong Shen, Chun Feng, Dong Yang, Yaogong Li, Jianhua Hu,* Guolin Lu, Xiaoyu Huang* “PMHDO-g-PEG double-bond-based amphiphilic graft copolymer: synthesis and diverse self-assembled nano- structures”, Macromolecules
40.Chun Feng, Zhong Shen, Yang Dong, Yaogong Li, Jianhua Hu,* Guolin Lu, Xiaoyu Huang* “Synthesis of well-defined amphiphilic graft copolymer bearing poly(2-acryloyloxyethyl ferrocenecarboxylate) side chains via successive SET- LRP and ATRP”, J. Polym. Sci. Polym. Chem.
41.Chun Feng, Lina Gu, Yang Dong, Jianhua Hu,* Guolin Lu, Xiaoyu Huang* “Size-controllable gold nanoparticles stabilized by PDEAEMA-based double hydrophilic graft copolymer”, Polymer
42.Yaogong Li, Yaqin Zhang, Dong Yang, Chun Feng, Sujuan Zhai, Jianhua Hu,* Guolin Lu, Xiaoyu Huang* “Well-defined amphiphilic graft copolymer consisting of hydrophilic poly(acrylic acid) backbone and hydrophobic poly(vinyl acetate) side chains”, J. Polym. Sci. Polym. Chem.
43.Yongjun Li, Sheng Chen, Sen Zhang, Qingnuan Li,* Guolin Lu, Wenxin Li, Hao Liu, Xiaoyu Huang* “Synthesis and characterization of new polymethacrylates bearing perfluorocyclobutyl and sulfonyl units”, Polymer

F. solano是什么

i815/Solano芯片组抢"鲜"测试

电脑之家特约：Andrew Liu(编译)

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引言

这篇文章有赖于我们在台北的计算机实验室的帮助，我们幸运地收到两片由著名厂商生产的最终版i815/Solano主板，由于时间紧迫，相对于你经常看的那些评测文章，这篇文章显得短小些，如果你想全面了解Intel最新的Solano芯片组的背景资料，我推荐你到网上看一周前发表的一篇名为"Intel Solano芯片组预览"的文章。

Rambus？不，谢谢！

客观地说，i815是Intel的第一款支持PC133 SDRAM的芯片组，因此Intel首次提供了除了只支持昂贵而难以流行的RDRAM 的i820和i840芯片组外的第二种选择。仅仅一年以前，Intel还认定RDRAM代表将来内存发展的趋势，并决不会开发一款支持PC133 SDRAM的芯片组。但是Rambus和RDRAM的糟糕表现、BX芯片组在133 MHz上出色的性能表现，加上在i820/i840芯片组上出现的几个重大的BUG，迫使Intel放弃他们坚持只发展RDRAM的政策，因此i815/Solano的计划得以最终付诸实施。Intel最终为了顾全他们在广大用户中的可信度和声望放弃了RAMBUS。

一个440BX的优秀接班人 ...?

几乎所有人都认可Intel的老款440BX芯片组运行在133 MHz FSB（前端系统总线）时表现的杰出性能。唯一的问题是：这种方式事实上意味着"BX133"系统中的AGP总线工作在89 MHz下，这对所有的AGP 3D显示卡来说都是一个考验。现在i815/Solano芯片组可以为那些需要一个工作在133 MHz FSB（前端系统总线）下和使用PC133 SDRAM 的Coppermine Pentium III计算平台用户提供一个官方最终的解决方案。

公众对i815/Solano芯片组的期望颇高。Intel的440BX芯片组在长达两年的时间内 为用户提供了极为出色的性能表现，毫不逊色于VIA的基于PC133 SDRAM的相应芯片组。i815/Solano至少不应该比它的老大哥逊色。我制作了一个小表格比较两者的硬指标。

i815/Solano i815E/Solano2 440BX
正式支持的前端系统总线频率 [MHz] 66/100/133 66/100/133 66/100
实际支持的前端系统总线频率 [MHz] 66/100/133以上 66/100/133以上 66/100/133以上
133 MHz前端系统总线频率下AGP时钟 66 MHz = 符合规范 66 MHz =符合规范 89 MHz =超过规范
133 MHz前端系统总线频率下PCI时钟 33 MHz =符合规范 33 MHz =符合规范 33 MHz =符合规范
内存时钟频率 66 - 133 或更高， 和 前端系统总线频率同步或异步 66 - 133 或更高， 和 前端系统总线频率同步或异步 66 - 133 或更高， 和 前端系统总线频率同步
AGP 传输率 133 MHz前端系统总线频率下提供AGP4x = 1 GB/s 133 MHz前端系统总线频率下提供AGP4x = 1 GB/s 133 MHz前端系统总线频率下提供AGP2x = 0.7 GB/s
ATA特性 ATA33/66，并支持第三方更高规格的ATA板载控制芯片 ATA33/66/100 ATA33，并支持第三方更高规格的ATA板载控制芯片
支持USB接口数 2 4 2
整合图形卡 Yes Yes No
最大内存支持 512 MB PC133 SDRAM 512 MB PC133 SDRAM 1 GB PC133 SDRAM

你可以看到i815看上去似乎比440BX更为强大。唯一的不足是i815/Solano仅仅支持512 MB内存。看来期望它的性能超越表现BX133应该不是一种奢望。基本上所有的硬件技术指标都达到或超越了BX133的标准，尤其是在ATA标准和AGP规范方面。

市场策略

但我们不应忘记现在已经不是性能至上的年代，大公司的市场策略实际上主宰着IT世界。并不是好的产品都能赢得市场，拥有强大推广攻势的产品才会获得成功。否则就算Rambus的库存只卖5美金一条也没人会买一套RDRAM的系统。Intel根本没兴趣提升i815的性能并使之超越它的RDRAM芯片组i820/i840，即使人们会从它和BX133的对比结果中知道它的实际表现。Intel需要i815作为那些不满RDRAM平台的用户的第二选择，Rambus芯片组仍然需要大力推广，因此Intel不会让i815提供比它昂贵得多的Rambus解决方案更好的性能。因此Intel必须作出选择，如果i815被设计成性能超越440BX的一款芯片组，这将全面破坏RDRAM的推广。另一种方案是i815可以被设计得故意慢一点，这将只会令少数消息灵通的用户和超频爱好者心烦，其他的人根本不会知道这种小细节（只有专业测试软件可以分辨）。从而Intel可以继续证明基于Rambus的芯片组比SDRAM的芯片组"优秀"。令人丝毫不感惊奇的是Intel采用了后一种方案。我现在可以告诉你i815/Solano在主要的性能测试中仍然达不到BX133的指标，但至少它击败了其他的对手，甚至包括Intel的双Rambus通道840芯片组。

i815/Solano的技术规范

首先，应该说有两个"Solano"，i815/Solano和i815E/Solano2。这两款芯片组都采用同一块北桥芯片"GMCH"= Graphics Memory Controller Hub（图形存储器控制单元）。不同的部分在于南桥芯片，i815使用在i810，i810E，820和840系列上著名的"ICH"= I/O Controller Hub（输入/输出控制单元）。ICH支持ATA66，AC97规范和2个USB接口。i815E则装备了更先进的"ICH2"，完全支持ATA100，4个USB接口和增强的信息&网络扩展资源插槽，符合AC97规范。"ICH2"也会在新款的i820和i840主板上出现，同样这些主板会以"i820E""i840E"的名字出现。

除去以上的南桥特性，"GMCH"单元支持前端总线时钟频率为66，100和133 MHz的处理器，同时支持介于100和133之间的系统内存时钟频率。因此i815可以支持Celeron处理器和最新133 MHz总线的Coppermine（铜矿）Pentium III处理器，同时你可以很好地使用PC100和PC133 SDRAM。i815在ZX/BX和i810的基础上为Celeron处理器的用户提供了更好的支持，你可以在66 MHz的前端总线上运行Celeron处理器，但同时内存会运行在100 MHz上，这种方式提升了性能。

大多数人已经知道i815/Solano整合了3D图形系统。在3D游戏方面，我们对这款整合图形子系统的期望值并不高。大家可以将自己选择的高档图形卡插在AGP插槽内，i815会自动屏蔽内置显示卡。

测试配置

我们采用了和"千兆战争-第二部分"同样的配置，通过这种方法，我们可以把i815的测试结果和BX，i820，i840以及VIA Apollo Pro 133A的测试结果进行比较，并不需要重复跑那些测试项目。我们使用5.08版本的GeForce图形卡驱动程序，因为我发现如果使用最新的5.22版驱动会大幅影响Quake3的测试结果。

我们被告知不要提早公布测试主板的特性，因为官方的i815发布会将在2000年6月19日进行。就象我们以往安装Intel的系统一样，以下的配置十分稳定而且容易安装。

平台特性
所有测试用图形卡 NVIDIA GeForce 256 120MHz核心，300MHz DDR RAM 32MB
所有测试用硬盘 Seagate Barracuda ATA ST320430A
所有测试用处理器 Intel Pentium III 1GHz， 133 MHz前端总线
Intel i815芯片组
主板 由“A×U×”公司提供的i815E样板，使用i815最终测试版芯片组
内存 128 MB，Wichmann WorkX MXM128 PC133 SDRAM 将CAS设为2
IDE界面 板载ICH2控制单元，ATA100
网卡 3Com 3C905B-TX
VIA Apollo Pro 133A芯片组
主板 华硕P3V4X，ACPI BIOS 1002 最终版， 2000年3月出厂
内存 128 MB， 采用增强存储系统PC133 HSDRAM 将CAS设为2
IDE界面 Promise Ultra66 PCI卡
网卡 3Com 3C905B-TX
Intel 440BX芯片组
主板 华硕P3B-F，ACPI BIOS 1005 beta 01，2000年3月出厂
内存 128 MB， 采用增强存储系统PC133 HSDRAM 将CAS设为2
IDE界面 Promise Ultra66 PCI卡
网卡 3Com 3C905B-TX
Intel 820芯片组
主板 华硕3C-L， ACPI BIOS 1020 beta 05，2000年3月
内存 128 MB， 三星PC800 RDRAM，RDRAM时钟频率由BIOS调整
IDE界面 板载
网卡 板载i82559

Intel 840芯片组
主板 OR840，特别设计的BIOS
内存 128 MB， 三星PC800 RDRAM，RDRAM时钟频率由BIOS调整
IDE界面 板载
网卡 板载i82559
驱动程序信息
图形卡驱动 NVIDIA 4.12.01.0508
VIA芯片组驱动 4in1 4.17 AGP-driver 3.56
ATA驱动 Promise Ultra66版本1.43驱动 Intel Ultra ATA BM驱动v5.00.038
环境设置
操作系统版本 Windows 98第二版4.10.2222 A 解析度1024x768x16位x85Hz 在SPECviewperf中1280x1024x32位x85Hz
DirectX版本 7.0
Quake 2 （雷神之槌2） 3.20版本 命令行= +set cd_nocd 1 +set s_initsound 0 Crusher demo， 640x480x16位
Quake 3 Arena （雷神之槌3竞技场） 零售版本 命令行= +set cd_nocd 1 +set s_initsound 0 图形细节设置为“Normal”，640x480x16位 使用“Q3DEMO1”作为测试基准
Expendable（兵人） 可下载的测试版本 命令行= -timedemo 640x480x16位
Unreal Tournament（虚幻锦标赛） 4.05b版本 高质量纹理，中等质量皮肤，无抖动 640x480x16位 使用“UTBench”作为测试基准

测试得分

一、办公应用软件性能（Sysmark 2000 Windows98SE版）

i815系统战胜了部分先前测试版本，但和BX133还有一些差距，i840也比它略强一些。

二、3D 游戏测试

i815系统再次在帧数上稍稍超越了先前的版本，但仍然和BX133系统有7帧的差距。

在Quake2中Solano表现得十分接近BX133系统。但还是无法超越它的老大哥，虽然战胜了其他所有对手。

兵人的测试结果仍然如此，Solano稳据第二位，而Rambus芯片组i820和840都失败了。

最终Solano以微小的差距负于BX133系统，这明显归功于它采用了AGP4x规范。但在以下的专业应用测试中这两款Intel的SDRAM芯片组表现就太惨了。

三、OpenGL 工作站性能 - SPECviewperf 6.1.1

Advanced Visualizer显示所有的主板得到同样的分数，看来GeForce是限制帧数的主要原因。

Design Review注重于内存的带宽性能而不是AGP的带宽，这就是为什么BX133和Solano都远不如i840的得分。

Data Explorer更加依赖内存的带宽，BX133再次领先于i815/Solano而RDRAM系统表现出色。

Lightscape 需要相当高的AGP吞吐量和大量的内存带宽。AGP4x规范帮助i815/Solano超越了BX133，RDRAM平台再次胜出，Solano还是击败了i820。

ProCDRS测试接近于Lightscape，i820表现不错，可能和GeForce驱动有关。

四、整合图形卡测试

我猜想在看完上面这张图表以后，没有人会感到惊奇，i815/Solano的整合图形卡三维处理能力本来就不很强，但没想到在代表二维图形加速能力的Sysmark2000测试中，它的表现如此出色。我没有估计到Intel至少会将整合图形单元设计成一块强劲的二维处理芯片。因此我建议使用板载整合图形单元作为低价解决方案。优点是随时可以通过一块专业AGP 3D图形卡提升系统性能。缺点是专业用户将为他们看不上的整合显示卡付钱，而且以后他们根本不会去使用它的功能。

结论

我感谢Intel发展了i815芯片组，但BX133仍然在主要的测试中领先于i815这一现实让我不满。我找不到任何理由为什么Solano仍然无法达到BX133的分值，而后者已经是出产两年之久的老产品了。Solano的"低下性能"提出了一些严重的问题，难道Intel无法使i815超过440BX或者是Intel完全不想让它跑得太快？我确信我们将永远无法得到一个诚实的答案。所以读者可以自己想一下为什么。

在我批评了i815相对于BX133的不足以后，我仍然必须称赞它在主要的几项测试中战胜了它的Rambus兄弟。超频爱好者可能会对这款主板失望，但一般用户并不愿意长期在BX133并不稳定的89MHzAGP频率下工作，这块主板是一个不错的选择。

Solano在一般应用中比i820和i840性能好而且价格便宜，同样的理由它击败了VIA的Apollo Pro133A PC133 芯片组。因此它可以称为"最好的Coppermine解决方案"，把这个荣誉从Apollo Pro133A手中夺回。现在的问题是i815平台的价格如何，你必须为整合图形单元掏钱，不管你用不用它。VIA Apollo Pro 133A主板仍然是最便宜的选择，但 i815可以提供更好的性能而只花比i820和i840少得多的钱。随着i820主板发生严重问题，i815的上市可能彻底封杀它的老大哥的生路。i840的销售情况也不理想，而且短时间内不会有大的改观。Intel的i815芯片组把它的Rambus兄第推入了尴尬的境地。

我对i815的称赞并不会掩盖VIA Apollo Pro 133A的成功，而且它的后继产品即将上市，据说支持DDR266 SDRAM，性能远胜于Solano。如果你将在接下来的几个月里添置主板，那你最好多看看，Solano现在是不错，但DDR266的平台一上市那就……。

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