Professor Tao, Qian
Director of Macau Centre of of Mathematical Sciences, Faculty of Innovation Engineering
Macau University of Science and Technology
Office: A109
Tel.: +8538897 2190
Email: tqian@must.edu.mo

Academic Qualification: 
 Ph.D. in Mathematics, Peking University, China, 1984
 Master in Mathematics, Peking University, China, 1981

Teaching Area 
B.Sc. Courses Complex Analysis Mathematical Analysis III Mathematical Analysis IV Mathematical Physics Methods Functional Analysis Real Analysis
M.Sc. Courses Mathematics Seminar Real Analysis Clifford Analysis Functional Analysis Partial Differential Equations Topics in Partial Differential Equations Fourier Analysis Advanced Mathematics Introduction to Statistics

Research Area 
 Harmonic Analysis in Euclidean Spaces
 Partial Differential Equations
 Complex Analysis of One and Several variables
 Clifford Analysis
 TimeFrequency Analysis
 System Identification
 Signal and Image Processing (Edge Detection)

Working Experience 
 2019  present Professor, Macau University of Science and Technology
 2013  2019 Distinguished Professor, University of Macau
 2003  2012 Full Professor, University of Macau
 2005  2011 Head of Dept of Math, Full Professor ,University of Macau
 2000  2002 Associate Professor, University of Macau
 1992  2000 Senior Lecturer, Lecturer (English system) , University of New England, Australia
 1988  1992 Research Fellow, Flinders University of South Australia, Australia
 1986  1988 Research Fellow, Macquarie University, Australia
 1984  1986 Research Fellow, Institute of Systems Sciences, the Chinese Academy of Sciences

Google Scholar Address 
http://scholar.google.co.uk/citations?user=FQ6tQe4AAAAJ&hl=en 
University and Faculty/Unit Service (Position Held, Dates, etc.) 
Director of Macau Center for Mathematical Sciences from 2019 to present. Head of Department of Mathematics for 6 years from 2005 to 2011. Service as members of University Senate, University GSC and Faculty GSC. Establishment of a New BSc Program in Mathematics with two branches in University of Macau Before 2011 Dept of Math taught only service courses for BSc in Math Education of Faculty of Education, and service courses for engineering departments of Faculty of Science and Technology, and Master and Ph.D. programs in mathematics. Supported by the university authority, as Head of Dept of Math, I led colleagues in Dept of Math to establish a new BSc program in mathematics in University of Macau with two streams (Mathematical Education and Mathematics and Applications). The program proposal has passed all the required procedures and become effective since November 2010. In Sep 2011 Dept of Math started to have freshmen for the new BSc in math. 
Honorary Positions 
Honorary Professor of Huaqiao University since 2011 by invitation Honorary Professor of Wuhan University since 2005 by invitation Honorary Professor of Xiamen University since 2003 by invitation 
International Journal Editorial Board Positions 
Associate Editor: Mathematical Methods in the Applied Sciences (SCI), published by WileyBlackwell Associate Editor: Complex Analysis and Operator Theory (SCI), published by BirkhauserSpringer Associate Editor: Complex Variables and Elliptic Equations (SCI), published by BirkhauserSpringer 
Mathematical Conference Organization 
To host ISAAC 2015 in University of Macau Chair of Scientific and Organization Committees, the 18th International Conference on Finite and Infinite Complex Analysis and Applications, University of Macau, 2010 (120 speakers and two special issues with the SCI journals MMAS and CV&EE as related publications) Chair of Scientific and Organization Committees, Symposium on HyperComplex Analysis, activity of Silver Jubilee of UM, December, 2006 (a conference proceedings published by Univ. of Macau) Chair of Scientific Committee, the 4th International Conference on Wavelet Analysis and Applications, 29th Nov to 2nd December, 2005, University of Macau (with 150 speakers and a conference book published by Springer) "Chair of Scientific Committee, Satellite Conference to ICM2002 (International Congress for Mathematicians, 2002, Beijing) on Clifford Analysis and its Applications, August, 2002, University of Macau (a conference book published by Birkhäuser)" 
Research Experience 
Major Research Grants Obtained From My Working Institutions (Active Research Grants are with thicker color) 2018: Macao Government FDCT 0123/2018/A3, Theory and applications of adaptive fourier decomposition in reproducing Kernel Hilbert spaces. 2018: University of Macau MultiYear Research Grant (MYRG) MYRG201800168FST, Adaptive rational approximation in weighted Hardy spaces and applications, 1120700 MOP. Funding starts from January 2019. 2017: Macao Government FDCT 079/2016/A2, Studies and Applications of Unwinding Fourier Expansions of Signals. Finding started in January 2018. 2016: University of Macau MultiYear Research Grant (MYRG) MYRG201600053FST AFD applications in Control Theory, 1458500 MOP. Annual Research Grant for the position of Distinguished Professor: MOP 350000. 2015: Joined with 乔玉英 NSFC, 11571089, Clifford分析中Dirac型算子及相关问题研究. 2015: Joined with 张艳慧 NSFC, 11501015, 半空间中次调和函数的Matseav定理. 2014: Macao Government FDCT 099/2014/A2, Two Related Topics in Clifford Analysis, Duration: 3 years, MOP 2130000. 2013: MultiYear Research Grant (MYRG) MYRG116(Y1L3)FST13QT Adaptive Decomposition of Signals and Applications, Level iii project, MOP 120,0000 2013: MultiYear Research Grant (MYRG) MYRG115(Y1L4)FST13QT Variational Problem on subRiemannian geometry with Application in Harmonic analysis and PDE, Level iv research proposal, MOP 221,0000 2012: Macao Government FDCT 098/2012/A3, Approximation With Rational Functions In One and Higher Dimensions With Applications, approved MOP 168, 2850. 2011: Joined with 娄增建，NSFC， 11171203，临界Q型空间及其在流体方程中的应用. 2011: Macao Government FDCT/056/2010/A3, Adaptive Decomposition of Signals and Applications (信号的自适应分解及其应用), Proposed Duration: 3 years. APPROVED MOP 1760000 2009 – 2010: UL017/08Y3/MAT/QT01/FST, Applications of HyperComplex Analysis 1st Subproject: Signal Analysis. Proposed Duration: 5 years (3rd). Approved 401250 MOP – 2010: Macao Government FDCT/014/2008/A1, Clifford and Harmonic Analysis Clifford及調和分析Proposed Duration: 3 years. APPROVED MOP$ 1196000 – 2009: UL017/08Y2/MAT/QT01/FST, Applications of HyperComplex Analysis 1st Subproject: Signal Analysis. Proposed Duration: 5 years (2nd). Approved 195450 MOP 2007: Joined with 娄增建，NSFC， 10771130，HardySobolev空间及相关问题. 2007 – 2008: RGUL/0708S/Y1/QT/FST, Applications of HyperComplex Analysis – 1st Subproject: Signal Analysis. Proposed Duration: Spring of 2008 to End of 2012. Approved 78000 MOP 2007: RG071/0607S/QT/FST, Singular Integrals in Hypercomplex Analysis. Proposed Duration: 2 years. Approved 195850 MOP 2007: RG071/0607S/08R/QT/FST, Singular Integrals in HyperComplex Analysis. Proposed Duration: 2 years. Approved 31000 MOP 20052008: Macao Government FDCT/051/2005/A, TimeFrequency Representation and Realization of Algorithm of Transient Signals (瞬變信號的時頻表示及算法實現), Proposed Duration: 3 years. APPROVED MOP$ 500000. Joined by Qiuhui Chen. 2005 2006: RG059/0506S/07R/QT/FST, PaleyWiener and Shannon Sampling Theorems in Hypercomplex Analysis. Proposed Duration: 2 years. Approved 45176.6 MOP 2005 – 2006: RG059/0506S/08T/QT/FST, PaleyWiener and Shannon Sampling Theorems in HyperComplex Analysis. Proposed Duration: 12 months. Approved 21440 MOP 2004 – 2005: RG059/0506S/QT/FST (RG079/0405S), PaleyWiener and Shannon Sampling Theorems in Hypercomplex Analysis. Proposed Duration: Two year (The present one is the second half). Approved 85580 MOP 2004 – 2005: RG079/0405S/QT/FST, PaleyWiener and Shannon Sampling Theorems in Hypercomplex Analysis. Proposed Duration: 24 months. Approved 52170 MOP 2004 – 2005: RG091/0405S/C117/QT/FST, Clifford Analysis Methods in Harmonic Analysis. Proposed Duration: 2 years. Approved 9487 MOP 2004 – 2005: RG092/0405S/C118/QT/FST, Analysis Methods in Signal Processing. Proposed Duration: 2 years. Approved 35355.8 MOP 2003 – 2004: RG065/0304S/QT/FST, Analysis Methods in Signal Processing. Proposed Duration: 2 years. Approved 41700 MOP 2003 – 2004: RG021/0304S/QT/FST (RG024/0203S/…), Clifford Analysis Methods in Harmonic Analysis. Proposed Duration: 2 years. Approved 49800 MOP 2002 – 2003: RG024/0203S/QT/FST, Clifford Analysis Methods in Harmonic Analysis. Proposed Duration: 2 years. Approved 47440 MOP 2002 – 2003: RG080/0203S/C41/QT/FST (RG055/0102S…), Mathematical Formulation of Image Edge Detection With Wavelet Method. Proposed Duration: 2 years. Approved 34040 MOP 2001 – 2002: RG055/0102S/QT/FST (RG002/0001W.), Monogenic Sinc Function and Applications (Jan to June 2002) & Harmonic Analysis on the Unit Spheres in Higher Dimensional Euclidean Spaces (Jul to Dec2002) Note: Project renewal under the title “Higher Dimensional Sine Methods and Applications in Partial Differential Equations” with a progress report Proposed Duration : one year. Approved 43900 MOP 2001 – 2002: RG056/0102S/QT/FST, Mathematical Formulation of Image Edge Detection with Wavelet Methods. Proposed Duration: 2 years. Approved 30900 MOP 2001 – 2002: RG056/0102S/C19/QT/FST, Mathematic Sinc Function and Applications & Harmonic Analysis on the unit Spheres in Higher Dimensional Euclidean Spaces Note: Transfer from 2002 Funding to 2003. Approved MOP$ 26914 MOP 2000 – 2001: RG024/0001S/QT/FST, Higher Dimensional Sine Methods and Applications in Partial Differential Equations – part 2 (previous ref. RG002/0001W/QT/FST). Proposed Duration: 1year 3 months (parts 1&2). Approved 39915 MOP 2000 – 2001: RG002/0001W/QT/FST, Higher Dimensional Sine Methods and Applications in Partial Differential Equations. Proposed Duration: 1 year. Approved 11315 MOP 1993 – 1999 Research Grants obtained yearly from New England University, Australia. 
Research Grants Obtained Outside My Affiliation Universities 
D.A.A.D. the German Research Foundation, Research Stay for Professor (3 months), 2009. Joint with ZJ. Lou, NNSF of China (grant no. 10771130), 2008 – 2010: Harmonic Analysis in HardySobolev Spaces. Joint with XM. Li, Guangdong Province Natural Science Foundation 030497, 2003 – 2005: Octonions Analysis. Conference Grant for the ICM Satellite Conference on Clifford Analysis, August, 2002, by the Guangdong New Oasis Life Science and Technology Co., Ltd. Conference Grant for the ICM Satellite Conference on Clifford Analysis, August, 2002, by the Chinese Mathematical Society. Representing UM I was the sole organizer. Research funding provided by the Foundation of Special Fund for Scientific Research, Belgium for my visit to Ghent Univ. for four months in 1999 to 2000 (invited by R. Delanghe, F. Brackx and F. Sommen, Clifford analysis). Programme of the Swedish Foundation for International Cooperation in Research and High Education (STINT). The period is for maximum nine months. The host institutions are Chalmers Univ of Technology and the Univ of G¨oteborg (invited by Peter Sj¨ogren, potential theory and harmonic analysis) “Transfer of Knowledge Through Expatriate National” supported by the United Nations Development Program. The assignment is for one month (July 1998) in Beijing. The host institute is the Mathematical Institute of the Chinese Academy of Sciences. (Through XH. Ji, partial differential equations) A grant from the Chinese Science Foundation based on a joint research project between Prof Tongde Zhong and myself to cover Zhong’s travelling expenses (from China) to visit UNE in August 1998 (TD. Zhong: several complex variables) A grant from the DFG the German Research Society based on a joint research project with Prof Wolfgang Spr¨ossig to cover Wolfgang’s travelling expenses (from Germany) to visit UNE in December 1997 and January 1998 A grant from the German Foundation D.A.A.D. to support my visit to Kiel Univ. in Nov and Dec 1996 (invited by D. M¨uller, harmonic analysis) Support from the German VolkswagenFoundation to cover full travel (ArmidaleSeiffenArmidale) and living expenses to attend Symposium on Analytical and Numerical Methods in Quaternionic and Clifford Analysis as a plenary speaker in Seiffen, Germany, June 1996 (invited by W. Spr¨ossig) NSF (USA) to support my visit to the Univ. of Illinois at UrbanaChampaign for two months in 1996 (invited by D. Burkholder, probability and stochastic processes) A research grant of the Netherlands Science Foundation to support my visit to Delft Univ. of Technology for one month in 1993 (invited by Ben de Pagter, functional analysis) Swedish researches grant to support my visit to Chalmers Univ. of Technology and Univ. of G¨oteborg for one month in 1990 (invited by P. Sj¨ogren, potential theory and harmonic analysis). Research grant of Swedish Science Foundation to support my visit to MittagLeffler Institute and the Univ. of Stockholm for two months in 1990 (invited by Jaak Peetre, at the occasion Special Year of Harmonic Analysis) NSF (U.S.A.) to support my visit to Univ. of Chicago for three months in 1987 (invited by C. Kenig, harmonic analysis and partial differential equations) 
Summary on Academic Visiting and Delivering Lectures in Mathematical Institutions 
Australia: The Univ. of New South Wales (1998, M. Cowling)，Queensland Univ. (1992)，Univ. of Sydney (1988, 1994)，The Center for Mathematical Analysis, the Australian National University (1987, 1989, 2002, N. Trudinger, A. McIntosh) Austria: Johannes Kepler University at Linz (1993 P. M¨uller) Belgium: Ghent University (2001, 2002, 2006, 2008, 2011, F. Sommen, R. Delanghe, F. Brackex) China P.R.: (An incomplete list includes) Peking University (LZ. Peng), Beijing Normal University (SZ. Lu, KY. Wang), Nankai University, Tianjin (XW. Zhou), Wuhan University (PD. Liu, JY. Du), Hubei University, Wuhan (LQ. Li), Henan University, Kaifeng (DF. Li), Xiamen University, Xiamen (TD. Zhong), Zhejiang University, Hangzhou (SL. Wang, JC. Chen), Zhongshan University, Guangzhou (LX. Yan, DG. Deng, LH. Yang), Shantou University, Shantou (ZJ. Lou), Math. Inst. Chinese Academy of Sci., Beijing (X.H. Ji), Math and Physics Inst., Wuhan, Chinese Academy of Sci. (CH. Ouyang), The Chinese University of Sci. and Tech., Hefei (S. Gong), Fudan University, Shanghai (Li DaQian), Tongji University, Shanghai (Chen ZhiHua), Jiaotong University, Shanghai (Han JinSheng). Czech Republic: Charles University (1996, 2007, V. Soucek) Finland: University of Helsinki (2007), Tempare University of Technology (2006, 2007, 2012, SirkkaLiisa Erikson)" France: INRIA Institut national de recherche en informatique et en automatique (The National Institute for Research in Computer Science and Control) (2011, 2013, L. Baratchart) Germany: Wuerzburg Universität (2009, S. Ruscheweyh), TU Freiberg University (1996, 2007, 2008, 2009, 2011, W. Sproessig, E. Wegert), Kiel University (1996, 2007, G. Sommer)." Hong Kong: HK City U. (2010, C. Micchelli), Hong Kong Univ. (2008, Ngaiming Mok), Baptist Univ. (2005,2007, T. Tang), The Chinese University of Hong Kong, Hong (2001, KS. Lau), UKUST (2001, 2006, CC. Yang, YM. Cheang). Italy: Seminario Matematico e Fisico di Milano (2008, 2013, I. Sabadini), Università degli Studi di Firenze (2008, F. Vlaci) The Netherland: Delft University of Technology (1993, Ben De Pagter) New Zealand: The University of Auckland (1998, B. Pavlov) Norway: The Norway Academy of Science (2012) Poland: Banach Center (invitation, 1996, Banach Center, B. Bojarski) Portugal: Aveiro University (2003, 2006, 2009, P. Cerejeiras, U. Kaehler) Sweden: Mittag Leffler Institute (1992, J. Peetre) Chalmers University of Technology (1992,1994,1999, P. Sj¨ogren) University of Stockholm(1992, J. Peetre) Univ. of Göteborg (1992, 1994, 1999, 2012, P. Sj¨ogren)
USA: Auburn University at Montgomery (2009, 2011, Y. Wang) University at Albany, State University of New York (2009, C. Micchelli, M. Stessin, KH. Zhu) The University of Alabama (2006, ZJ. Wu) Princeton University (2006, A. SR. Chang) Syracuse University New York (1996, 2009, T. Iwaniec, G. Verchota, YS. Xu) University of Illinois at UrbanaChampaign (1996, D. Burkholder) Washington University at St Louis (1994, G. Weiss, M. Taibleson) University of Arkansas (1994, 1996, J. Ryan) University of Chicago (1987, C. Kenig) Indiana University (1987, A. Torchinski)

Academic Visitors Invited Supported By My Research Grants (Incomplete list): 
Australia: 2008: B. Jefferies (Harmonic and Clifford Analysis), University of New South Wales, Australia (to University of Macau) 2007: X. Doung (Harmonic Analysis and PDEs), Macquarie University (to University of macau) 2007: X.J. He (Image Processing), Sydney University of Sci and Tech (to University of Macau) 2005: M. Cowling (Harmonic Analysis), University of New South Wales (to University of Macau) 2005: YouSong Luo, (Partial Differential Equations), RTMI (to University of Macau) 1996, 2002, 2009: McIntosh (Harmonic Analysis, PDEs, Operator Theory), Macquarie Univ., the Australian National Univ.,(to Flinders Univ. of South Australia and Univ. of Macau) Belgium: 2007: F. Brackx (Clifford Analysis), Ghent University (to University of Macau) 2007: H. De Schepper (Clifford Analysis), Ghent University (to University of Macau) 2006: EM Professor Richard J. Delanghe (Clifford Analysis), Ghent University (to University of Macau) 2004, 2008, 2009, 2010: Frank Sommen (Clifford Analysis), State Univ Ghent (to University of Macau) 2004: David Eelbode (Clifford Analysis), State Univ Ghent (to University of Macau) 2004: Bram De Knock (Clifford Analysis ), State Univ Ghent (to University of Macau) 2004: Nele De Schepper (Clifford Analysis), State Univ Ghent (to University of Macau) Canada: 2004: Genkai Zhang (Pattern Recognition), the University of Western Ontario (to University of Macau) China P.R.: 2011, 2012: QX. Yang (Harmonic Analysis), Mid China University of Science and Technology (to University of Macau) 2011: JZ. Liu (Math Computation), Beijing Research Institute of Rail Sciences (to University of Macau) 2011: GT. Deng (Complex Analysis), Beijing Normal University (to University of Macau) 2011: YH. Zhang (Complex Analysis), Beijing Normal University (to University of Macau) 2010: DF. Li (Wavelet and Functional Analysis), Henan University (to University of Macau) 2010: XueAn Zheng (Harmonic Analysis), Beijing Normal University (to University of Macau) 2009: Z.J. Lou (Harmonic Analysis), Shantou University (to University of Macau) 2009: LH. Tan (Complex and Signal Analysis), Guangdong University of Sci and Tech (to University of Macau) 2009: WJ Yuan (Complex Analysis), Guangzhou University (to University of Macau) 2008: LZ. Peng (Harmonic and Wavelet Analysis), Peking University (to University of Macau) 2008, 2010, 2011: LH. Yang (Signal and Image Analysis), Zhongshan University (to University of Macau) 2008: JianXun He (Complex and Harmonic Analysis), Guangzhou University (to University of Macau) 2005: JY Du (Analytic Boundary Value Problems), Wuhan University (to University of Macau) 2005: YY. Qiao (Clifford Analysis), He Bei Normal University (to University of Macau) 2006, 2008, 2011: X.M. Li (Quaternionic and Octonionic Analysis, and Image Analysis) Guangzhou University (to University of Macau) 2006: QS. Cheng (Signal Analysis), Peking University (to University of Macau) 2006, 2007, 2008, 2009, 2010: Q.H. Chen (Wavelet and Signal Analysis), Zhongshan University, Hubei University, Aveiro University (to University of Macau) 2004, 2006, 2008: H. Li (Algorithm and Approximation), Huazhong University of Sci and Tech (to University of Macau) 2004: ChuHui Qiu (Complex Analysis), Xiaman University (to University of Macau) 2003: PD. Liu (Geomery in Banach Spaces), Wuhan University (to University of Macau) 2002: B.H. Li (Differential Geometry and PDE), Inst. of Math,Fellow of the Chinese Academy of Sciences (to University of Macau) 2002: Sun Daochun (Complex Analysis), South China Normal Univ (to University of Macau) 2002: Yu Jiarong (Complex Analysis), Wuhan Univ (to University of Macau) 2002: Li Xingmin (Harmonic Analysis and Hypercomplex Analysis),Guangzhou Univ (to University of Macau) 1999: QH Yu (Several Complex Variables), Inst. of Math., Academia Sinica (The Chinese Academy of Sciences), P.R. China (to Univ of New England) 1998: TD Zhong (Several Complex Variables), Xiamen Univ, P.R. China (to Univ of New England and University of Macau) 1997, 2005: LX Yan (Harmonic Analysis), Zhongshan Univ, P.R. China (to Univ of New England and University of Macau) 1997: XH. Ji (Partial Differential Equations), Inst of Maths the Chinese Academy of Sciences (to Univ of New England) 1994, 1998, 2000: KY Wang (Approximation Theory), Beijing Normal Univ, P.R. China (to Univ of New England and University of Macau) 1994: YB Zhang (Algebra), Beijing Normal Univ, P.R. China (to Univ of New England) 1992, 2004: SL Wang (Harmonic Analysis), Hangzhou Univ, P.R. China, (to Flinders Univ of South Australia and University of Macau) 1991: RL Long (Harmonic Analysis), Inst of Math, Academia Sinica, P.R. China (to Flinders Univ of South Australia) Finland: SL. Eriksson (Clifford Analysis), Tampere University of Technology (to University of Macau) France: 2010: L. Baratchart (Harmonic Analysis and Approximation Theory), Recherche at INRIA (SophiaAntipolis) (to University of Macau) 2006: J.P. Kahane (Fourier and Complex Analysis), Universite ParisSud Orsay (to University of Macau) 2003: Robert Conte (Ordinary Differential Equations), CEA Research Institute, Saclay (to University of Macau) Germany: 2013: Bert. Wolfgang Schulze, University of Potsdam 2010: Elias Wegert (Complex Analysis, RiemannHilbert Boundary Value problems, Control Theory), TU Bergakademie Freiberg (to Univ of New England and University of Macau) 2008: G.erold Sommer (Pattern Recognition and Image Processing), Kiel University (to University of Macau) 2008: H. Begehr (Complex Analysis and Boundary Value Problems), Mathematisches Institut Freie Univesitat Berlin (to University of Macau) 2002: T. Hempfling (Clifford Analysis), Freiberg Univ (to University of Macau) 1998, 2002, 2006, 2011: Dr Wolfgang Sproessig (Clifford Analysis and Applied P.D.E’s),TU Bergakademie Freiberg (to Univ of New England and University of Macau)" Hong Kong: 2009: Y.M. Chiang (Special Functions and ODEs), Hong Kong University of Science and Technology (to University of Macau) 2007: T. Tao (Scientific Computing), Hong Kong Baptist University (to University of Macau) 2004: JinSong Huang (Representation theory), University of Hong Kong (to University of Macau) 2003, 2008, 2010: ChongCun Yang (Complex Analysis), Hong Kong University of Science and Technology (to University of Macau) 2002: You Xingge (Signal Processing), Hong Kong Baptist Univ. Portugal: 2007, 2008: P. Cerejeiras (Clifford Analysis), University of Aveiro, Portugal (to University of Macau) 2007, 2008: U. Kaehler (Clifford Analysis), University of Aveiro, Portugal (to University of Macau) 2002: H. Malonek (Clifford Analysis), Aveiro Univ. Portugal (to University of Macau) Sweden: 1995, 1997, 2000: Peter Sj¨ogren (Potential Theory and Harmonic Analysis), Chalmers Univ of Technology and G¨oteborg Univ,Sweden (to Univ of New England and University of Macau) The Netherland: 1993: Ben de Pagter (Functional Analysis), Delft Univ of Technology, the Netherlands (to Univ of New England) Taiwan: 2008: S.S. Cheng (Complex Analysis), Tsing Hua University, Taiwan (to University of Macau) USA: 2010: M. Stessin (Complex Analysis and Operator Theory), Albany University, New York, USA (to University of Macau). 2008: DerChen Chang (Harmonic and Complex Analysis), Department of Mathematics, Georgetown University, USA (to University of Macau) 2006: ZJ. Wu (Harmonic and Complex Analysis, Operator Theory), University of Alabama, USA (to University of Macau) 2005: Yuesheng Xu (Applied Mathematical Analysis), Syracuse University (to University of Macau) 2004, 2010: Charles Micchelli (Applied Analysis), State University of New York, the University at Albany, Chair Prof of Hong Kong City University (to University of Macau) 2003: George Csordas (Complex Analysis), Univ. of Hawaii (to University of Macau) 2002: M. Ismail, (Special Functions), The Univ of Florida, USA (to University of Macau) 1998: Prof Dmitry Khavinson (Complex Analysis), Univ of Arkansas, USA (Univ of New England) 1998, 2003: KS Lau (Functional and Harmonic Analysis), Univ of Pittsburgh and the Chinese Univ of Hong Kong (to Univ of New England and to University of Macau) 1994, 2007: John Ryan (HyperComplex and Clifford Analysis), Univ of Arkansas, USA (to Univ of New England and University of Macau) 
Awards 
澳门特别行政区科学技术奖：自然科学奖一等奖， 二零一二年十月十九日 (Macao SAR Science and Technology Research Award: Natural Science First Prize, the 19th October, 2012) Research Prize for Senior Faculty Members, Faculty of Science and Technology, University of Macau, 20072009 (The Second Research Competition of University of Macau with only one winner in the category) 2nd Prize of University of Macau Research Award, University of Macau, 2001 (My second year in UM, the first Research Competition of University of Macau) Vice Chancellor’s Award for Excellency in Research, New England University, Australia, 2000 (One award after several years) Prize of Scientific Progress, China, 1984, 1985 (joint with M.T. Cheng and D.G. Deng, based on my Doctorate thesis). 
Keynote and Plenary Speaker Financially Supported By Conferences 
The The 20th International Conference of Finite and Infinite Dimensional Complex Analysis and Applications, Hanoi, Vietnam, July 2012 The 2nd International conference on the Advances of HilbertHuang Transform and Its Applications, Zhongshan University, Guangzhou, 2008 The 16th International Conference of Finite and Infinite Dimensional Complex Analysis and Applications, Gyeongju, Korea, 2008 The 1st International conference on the Advances of HilbertHuang Transform and Its Applications, Taoyuan, 2006 International conference on Function Theories in Higher Dimensions, Tampere University of Technology, Finland, 2006 The 4th International conference in Wavelet Analysis and Applications, Macao, 2005 Conference For Mathematical Achievements of Garth Gaudry, University of New South Wales, Australia, 2004 The 6th International Conference on Clifford Algebras and their Applications, Cookeville, Tennessee, ISAAC, USA, 2002 Satellite Conference on Clifford Analysis and Applications to ICM 2002, Macao. Symposium on Analysis and Numerical Methods in Clifford, AnalysisTheory and Applications, Seiffen, Germany, 1996 
Publications (Summary) 
Refereed Journal Papers: 236 Refereed Edited Books and Journal Special Issues :10 Refereed Book Chapters :12 Refereed Conference Proceedings :16 TOTALLY Published :274 
Academic Publication (Selected)

Accepted and Published Refereed Journal papers (“*” means that the paper is in the latest SCIE, EI, CPCIS and CJCR (China Journal of Scientific Research) lists. Percentage of the applicants contribution is cited to the end of the item. Before 2000 the authors name order was basically according to the alphabetical way, and after 2000 it was according to variable criteria and requests of the collaborator(s)).
*236[QLQYZ]Chitin Hon, Ieng Tak Leong, Tao Qian, Haibo Yang & Bin Zou. Unconditional Basis Constructed from Parameterised Szegö Kernels in Analytic Hp(D). Complex Analysis and Operator Theory volume 17, Article number: 84 (2023) .
*235[ZLLQ]B Zhu, J Liu, Z Lai, T Qian. Sampling Gaussian stationary random fields: A stochastic realization approach. ISA transactions.
*234[Q2023]T Qian.nBest kernel approximation in reproducing kernel Hilbert spaces. Applied and Computational Harmonic Analysis.
*233[LYQX]J Li, X Yang, T Qian, Q Xie. The adaptive Fourier decomposition for financial time series. Engineering Analysis with Boundary Elements 150, 139153
*232[QZLQ]T Qian, Y Zhang, W Liu, W Qu. Adaptive Fourier decomposition‐type sparse representations versus the Karhunen–Loève expansion for decomposing stochastic processes. Mathematical Methods in the Applied Sciences. 2023. 46 (13):1400714025.
*231[WLQ]HT Wu, IT Leong, T Qian. Weak preorthogonal adaptive Fourier decomposition in Bergman spaces of pseudoconvex domains.Complex Variables and Elliptic Equations 68 (4), 568577.
*230 [MQ]Mai W, Qian T. Algorithm of adaptive Fourier decomposition in H^2(C^+). International Journal of Wavelets, Multiresolution and Information processing 2023.
*229 [HDQ]Huang Y, Deng G T, Qian T. Integral representations in weighted Bergman spaces on tube domains[J]. Complex Variables and Elliptic Equations, 2023: 120.
*228 [JLQ]Jin M, Leong I T, Qian T, et al. Adaptive Fourier decomposition of slice regular functions[J]. Advances in Applied Clifford Algebras, 2023, 33(1): 8.
*227[ZMRQJ] Ze, W., Man, W. C., Rosa, A., Tao, Q., & Jung, T. P. (2023). StimulusStimulus Transfer Based on TimeFrequencyJoint Representation in SSVEPBased BCIs.
2022 *226[DMQ] Dang P, Mai W, Qian T. On Monogenic Reproducing Kernel Hilbert Spaces of the Paley–Wiener Type[J]. Advances in Applied Clifford Algebras, 2022, 32(4): 129.
*225[CDQS] Colombo F, De Martino A, Qian T, et al. The Poisson kernel and the Fourier transform of the slice monogenic Cauchy kernels[J]. Journal of Mathematical Analysis and Applications, 2022, 512( 1): 126115.
*224[DDQ] Dang P, Du J, Qian T. Riemann Boundary Value Problems for Monogenic Functions on the Hyperplane[J]. Advances in Applied Clifford Algebras, 2022, 32(3) : 160.
*223[Q2022(2)] Qian T. Positiveinstantaneous frequency and approximation[J]. Frontiers of Mathematics in China, 2022, 17(3): 337371.
*222[FLQ] Fu W Y, Li X D, Qian T. Datadriven ILC algorithms using AFD in frequency domain for unknown linear discretetime systems[J]. Journal of the Franklin Institute, 2022, 359(6): 24452462.
*221[QDZC] Qian T, Dai L, Zhang L, Chen Z. Granular sieving algorithm for selecting best n n parameters[J]. Mathematical Methods in the Applied Sciences, 2022.
*220[LQWZ] Li P, Qian T, Wang Z, Zhang C. Regularity of fractional heat semigroup associated with Schrödinger operators[J]. Fractal and Fractional, 2022, 6(2): 112.
*219[WWRQ] Wang Z, Wong C M, Rosa A, Qian T. Adaptive Fourier Decomposition for MultiChannel Signal Analysis[J]. IEEE Transactions on Signal Processing, 2022, 70: 903918.
*218[Q2022] Qian T. Sparse representations of random signals[J]. Mathematical Methods in the Applied Sciences, 2022, 45(8): 42104230.
*217[QQLZ] Qu W , Qian T , Haichou Li, Kehe Z,. Best kernel approximation in Bergman spaces[J]. Applied Mathematics and Computation, 2022, 416:126749.
*216[WLQ] H. T. Wang, I. T. Leong, T. Qian, Adaptive rational approximation in Bergman space on bounded symmetric domain, J. Math. Anal. Appl., 2022, 506( 1).
*215[MQ2] W. Mi, T. Qian, System identification of hammerstein models by using backward shift algorithm, Applied Mathematics and Computation, 2022, 413.
*214[MQ 1] Mai W, Qian T. The Fourier type expansions on tubes[J]. Complex Variables and Elliptic Equations, 2022, 67(2): 433461.
*213[LJCQ] D. Li, F. X. Jiang, M. Chen, T. Qian, Multistepahead wind speed forecasting based on a hybrid decomposition method and temporal convolutional networks, Energy, 2022, 238.
2021
*212[QQD] Qu, W., Qian, T., Deng, G., Youfa Li & Chunxu Zhou. Analytic Phase Retrieval Based on Intensity Measurements. Acta Math Sci 41, 2123–2135 (2021).
*211[DQ] Dong B, Qian T. Uniform generalizations of Fueter’s theorem[J]. Annali di Matematica Pura ed Applicata (1923), 2021, 200(1): 229251.
*210[TZQ] Tan C, Zhang L, Qian T, et al. Statistical nBest AFDBased Sparse Representation for ECG Biometric Identification[J]. IEEE Transactions on Instrumentation and Measurement, 2021, 70: 113.
*209[QCDQ] Qu W, Chui C K, Deng G T, Qian T. Sparse representation of approximation to identity[J]. Analysis and Applications, 2021: 123.
*208[WLQ] Wu H T, Leong I T, Qian T. Weak preorthogonal adaptive Fourier decomposition in Bergman spaces of pseudoconvex domains[J]. Complex Variables and Elliptic Equations, 2021: 110.
*207[WLZQX] Y. F. Wu, X. L. Liu, L. M. Zhang, T. Qian, Q. W. Xie, Contentadaptive image encryption with partial unwinding decomposition, Signal Processing, 2021, 181.
*206[QQH] 钱涛, 曲伟, 黄勇, 算子方程基本问题解的再生核稀疏表示, 中国科学:数学, 2021, 51(01): 209224.
*205[YQZDB] Z. J. Ye, T. Qian, L. M. Zhang, L. Dai, H. Li, J. A. Benediktsson, Functional Feature Extraction for Google Scholar Address Academic Publication Hyperspectral Image Classification With Adaptive Rational Function Approximation, IEEE Transactions on Geoscience and Remote Sensing, 2021, 59.
*204[WQ3] Y. B. Wang, T. Qian, Pseudohyperbolic distance and nbest rational approximation in H2 space, Mathematical Methods in the Applied Sciences, 2021.
*203[DHQ] G. T. Deng, Y. Huang, T. Qian, Reproducing Kernels of Some Weighted Bergman Spaces, Journal of Geometric Analysis, 2021.
*202[TZWQ] C. Y. Tan, L. M. Zhang, H. T. Wu, T. Qian, A novel feature representation approach for singlelead heartbeat classification based on adaptive Fourier decomposition, International Journal of Wavelets, Multiresolution and Information Processing, 2021.
*201[QTC] T. Qian, L. H. Tan, J. C. Chen, A class of iterative greedy algorithms related to Blaschke product, SCIENCE CHINAMATHEMATICS, 2021.
*200[QWZ] T. Qian, X. Y. Wang, L. M. Zhang, MIMO frequency domain system identification using matrixvalued orthonormal functions, Automatica, 2021, 133.
*199[QQD] W. Qu, T. Qian, G. T. Deng, A stochastic sparse representation: nbest approximation to random signals and computation, Applied and Computational Harmonic Analysis, 2021, 55: 185198.
*198[XLQL] Q. W. Xie, R. R. Liu, T. Qian, J. Y. Li, Linkages between the international crude oil market and the Chinese stock market: A BEKKGARCHAFD approach, Energy Economics, 2021, 102.
2020
*197[CLQ] Q. H. Chen, L. Q. Li, T. Qian, Timefrequency transform involving nonlinear modulation and frequency varying dilation, COMPLEX VARIABLES AND ELLIPTIC EQUATIONS, 2020, 65(11): 18001813 .
*196[DMQ] P. Dang, W. X. Mai, T. Qian, Fourier spectrum of Clifford Hp spaces on R+n+1 for 1 ≤ p ≤ ∞, Journal of Mathematical Analysis and Applications, 2020, 483(1).
*195[YQ] Q. X. Yang, T. Qian, The Dual Elements of Function Sets and FeffermanStein Decomposition of Triebel Lizorkin Functions via Wavelets, COMPUTATIONAL METHODS AND FUNCTION THEORY, 2020, 20(2): 185 216.
*194[DQ] B. H. Dong, T. Qian, Uniform generalizations of Fueter's theorem, ANNALI DI MATEMATICA PURA ED APPLICATA, 2020, 200(1): 229251.
*193[CQT] Q. H. Chen, T. Qian, L. H. Tan, A theory on nonconstant frequency decompositions and applications, Advancements in Complex Analysis: From Theory to Practice, 2020: 137.
*192[FLQ] W. Y. Fu, X. D. Li, T. Qian, AFDbased ILC designs in frequency domain for linear discretetime systems, INTERNATIONAL JOURNAL OF SYSTEMS SCIENCE, 2020, 51(16): 33933407.
*191[CQLX] 陈维国,钱涛,李建平,谢启伟, 基于TakenakaMalmquist自适应时频分布的特征指标——来自上证和深证的数据, 系统工程理论与实践, 2020, 40(12): 31123123.
*190[WQLG] X. Y. Wang, T. Qian, I. T. Leong, Y. Gao, TwoDimensional FrequencyDomain System Identification, IEEE Transactions on Automatic Control, 65(2): 577590.
*189[Q2020] T. Qian, Reproducing Kernel Sparse Representations in Relation to Operator Equations. Complex Anal. Oper. Theory, 2020, 14(2): 1–15.
*188[DMQ] P. Dang, W. X. Mai, T. Qian, Fourier spectrum of Clifford Hp spaces on Rn+1+ for 1≤p≤∞, J. Math. Anal. Appl., 2020, 483(1): 123598.
*187[WQLG] X. Y. Wang, T. Qian, I. T. Leong, Y. Gao, TwoDimensional FrequencyDomain System Identification, IEEE Transactions on Automatic Control, 65(2): 577590.
*186[Q2020] T. Qian, Reproducing Kernel Sparse Representations in Relation to Operator Equations. Complex Anal. Oper. Theory, 2020, 14(2): 1–15.
2019
*185[DMQ] P. Dang, W. X. Mai, T. Qian, Fourier spectrum of Clifford Hp spaces on Rn+1+ for 1≤p≤∞, J. Math. Anal. Appl., 2020, 483(1): 123598.
*184[CDQ2] Q. H. Chen, P. Dang, T. Qian, Spectra of rational orthonormal systems. Sci. China Math., 2019, 62(10): 1961–1976.
*183[DLQ2] G. T. Deng, H. C. Li, T. Qian, Fourier spectrum characterizations of Hardy spaces Hp on tubes for 0<p<1, Complex Anal. Oper. Theory, 2019, 13(6): 2605–2625.
*182[DHQ] G. T. Deng, Y. Huang, T. Qian, PaleyWienertype theorem for analytic functions in tubular domains, J. Math. Anal. Appl., 2019, 480(1): 123367.
*181[MRQZ] W. Mi, H. M. Rao, T. Qian, S. M. Zhong, Identification of discrete Hammerstein systems by using adaptive finite rational orthogonal basis functions, Appl. Math. Comput., 2019, 361: 354–364.
*180[WQ2] Y. B. Wang, T. Qian, Adaptive Fourier decomposition in Hp, Math. Methods Appl. Sci., 2019, 42(6): 2016–2024.
*179[LZQ2] Y. T. Li, T. Qian, A Novel 2D Partial Unwinding Adaptive Fourier Decomposition Method with Application to Frequency Domain System Identification, Mathematical Methods in the Applied Sciences, 2019, 42(9): 31233135.
*178[LZQ] Y. T. Li, L. M. Zhang, T. Qian, 2D Partial Unwinding – A Novel NonLinear Phase Decomposition of Images, IEEE Transactions on Image Processing, 2019, 28(10): 47624773.
*177[QWM] T. Qian, J. Z. Wang, W. X. Mai, An Enhancement Algorithm for Cyclic Adaptive Fourier Decomposition, Applied and Computational Harmonic Analysis, 2019, 47(2): 516525.
*176[DKQS2] B. H. Dong, K. I. Kou, T. Qian, I. Sabadini, The Inverse Fueter Mapping Theorem for Axially Monogenic Functions of Degree k, J. Math. Anal. Appl., 2019, 476 (2): 819–835.
*175[DengLQ] G. T. Deng, H. C. Li, T. Qian, Hardy Space Decompositions of Lp(Rn) for 0<p
2018
*174[MQ5] W. X. Mai, T. Qian, Rational Approximation in Hardy Spaces on Strips, Complex Var. Elliptic Equ., 2018, 63(12): 1721–1738.
*173[QY3] T. Qian, Q.X. Yang, Wavelets and Holomorphic Functions, Complex Analysis and Operator Theory, 2018, 12(6): 14211442.
*172[Q20] T. Qian, A Novel Fourier Theory on Nonlinear Phases and Applications, ADVANCES IN MATHEMATICS (CHINA), 2018, 47(3): 321347. (in Chinese).
*171[DMNQ] P. Dang, J. Mourão, J.P. Nunes, T. Qian, Clifford coherent state transforms on spheres, Journal of Geometry and Physics, 2018, 124: 225232.
*170[GKQ] Y. Gao, M. Ku, T. Qian, Fast algorithm of adaptive Fourier series, Mathematical Methods in the Applied Sciences, 2018, 41(7): 26542663.
*169[LDQ2] H.C. Li, G.T. Deng, T. Qian, Fourier Spectrum Characterizations of Hp Spaces on Tubes Over Cones for 1≤p≤∞, Complex Analysis and Operator Theory, 2018, 12(5): 11931218.
*168[LQ3] Y.F. Li, T. Qian, Reconstruction of analytic signal in Sobolev space by framelet sampling approximation, Appl. Anal., 2018, 97(2): 94209.
2017
*167[DLQ] P. Dang, H. Liu, T. Qian, Hilbert Transformation and Representation of the ax+b Group, Canad. Math. Bull., 2017, 61(1): 7084.
*166[MQ4] W.X. Mai, T. Qian, Aveiro method in reproducing kernel Hilbert spaces under complete dictionary, Mathematical Methods in the Applied Sciences, 2017, 40(18): 119.
*165[BDQ] L. Baratchart, P. Dang, T. Qian, HardyHodge Decomposition of Vector Fields in Rn, Transactions of the American Mathematical Society, 2017, 370(3): 20052022.
*164[TQ] L.H. Tan, T. Qian, Extracting Outer Function Part from Hardy Space Function, Science China Mathematics, 2017, 60 (11): 23212336.
*163[ACQS2] D. Alpay, F. Colombo, T. Qian, and I. Sabadini, Adaptative Decomposition: The Case of the DruryArveson Space, Journal of Fourier Analysis and Applications, 2017, 23(6): 14261444.
*162[DQC] P. Dang, T. Qian, Q. H. Chen, Uncertainty Principle and Phase–Amplitude Analysis of Signals on the Unit Sphere，Advances in Applied Clifford Algebras, 2017, 27(4): 29853013.
*161[GKQW] Y. Gao, M. Ku, T. Qian, J. Z. Wang, FFT formulations of adaptive Fourier decomposition, Journal of Computational and Applied Mathematics, 2017, 324: 204–215.
*160[CDQ] Q. H. Chen, P. Dang, T. Qian, A Frame Theory of Hardy Spaces with the Quaternionic and the Clifford Algebra Settings, Advances in Applied Clifford Algebras, 2017, 27(2): 1073–1101.
*159[KKQ] U. Kähler, M. Ku, T. Qian, Schwarz Problems for PolyHardy Space on the Unit Ball, Results in Mathematics, 2017, 71(34): 801–823.
*158[ZKDQ] Y. H. Zhang, K. I. Kou, G. T. Deng, T. Qian,The generalized matsaev theorem on growth of subharmonic functions admitting a lower bound in Rn, Complex Variables and Elliptic Equations, 2017, 62(5): 642–653.
*157[ACQS] D. Alpay, F. Colombo, T. Qian, I. Sabadini, Adaptive orthonormal systems for matrixvalued functions, Proceedings of the American Mathematical Society, 2017, 145(5): 2089–2106.
*156[MNQ] J. Mourão, J. P. Nunes, T. Qian, Coherent State Transforms and the Weyl Equation in Clifford Analysis, Journal of Mathematical Physics, 2017, 58(1): 116.
*155[ZQMD] L. M. Zhang, T. Qian, W. X. Mai, P. Dang, Adaptive Fourier decompositionbased Dirac type timefrequency distribution, Mathematical Methods in the Applied Sciences, 2017, 40(8): 28152833.
2016
*154[BMQ] L. Baratchart, W.X. Mai, T. Qian, Greedy Algorithms and Rational Approximation in One and Several Variables, In: Bernstein S., Kaehler U., Sabadini I., Sommen F. (eds) Modern Trends in Hypercomplex Analysis. Trends in Mathematics, 2016: 1933,
*153[DQ] G.T Deng, T. Qian, Rational approximation of Functions in Hardy Spaces, Complex Analysis and Operator Theory, 2016, 10(5): 903920.
*152[YDQ] Y. Yang , P. Dang, T. Qian, Tighter Uncertainty Principles Based on Quaternion Fourier Transform, Advances in Applied Clifford Algebras, 2016, 26(1): 479497.
*151[DQY] P. Dang, T. Qian, Y. Yang, Extrastrong uncertainty principles in relation to phase derivative for signals in Euclidean spacs, Journal of Mathematical Analysis and Applications, 2016, 437(2): 912940.
*150[LDQ] H. C. Li, G. T.Deng, T. Qian, Hardy space decomposition of on the unit circle: 0<p<1, Complex Variables and Elliptic Equations: An International Journal, 2016, 61(4): 510523.
*149[QT] T. Qian, L. H. Tan, Backward shift invariant subspaces with applications to band preserving and phase retrieval problems, Mathematical Methods in the Applied Sciences, 2016, 39(6): 15911598.
*148[Q] T. Qian, TwoDimensional Adaptive Fourier Decomposition, Mathematical Methods in the Applied Sciences, 2016, 39(10): 24312448.
*147[BCQ] L. Baratchar, S. Chevillard, T. Qian, Minimax principle and lower bounds in H2 rational approximation, Journal of Approximation Theory, 2016, 206: 1747.
*146[DKQS] B. H. Dong, K. I. Kou, T. Qian, I. Sabadini, On the inversion of Fueter’s theorem, Journal of Geometry and Physics, 2016, 108: 102116.
*145[ACQS] D. Alpay, F. Colombo,T. Qian, I. Sabadini, The H infinity functional calculus based on the Sspectrum for quaternionic operators and for ntuples of noncommuting operators, Journal of Functional Analysis, 2016, 271(6):15441584.
*144[YQL] Q. X. Yang, T. Qian, P. T. Li, FeffermanStein decomposition for Qspaces and microlocal quantities, Nonlinear Analysis: Theory, Methods &Applications, 2016,145: 2448.
*143[CQLMZ] Q. H. Chen, T. Qian, Y. Li, W. X. Mai, X. F. Zhang, Adaptive Fourier tester for statistical estimation, Mathematical Methods in the Applied Sciences,2016, 39(12): 34783495.
*142[ZDQ] Y. H. Zhang, G. T. Deng, T. Qian, Integral representations of a class of harmonic functions in the half space, Journal of Differential Equations,2016, 260(2): 923936.
*141[MDZQ] W. X. Mai, P. Dang, L. M. Zhang, T. Qian, Consecutive minimum phase expansion of physically realizable signals with applications, Mathematical Methods in the Applied Sciences,2016, 39(1): 6272.
*140[MQL] W. Mi, T. Qian, S. Li, Basis pursuit for frequencydomain identification, Mathematical Methods in the Applied Sciences, 2016, 39(3): 498–507.
*139[KMNQ] W. D. Kirwin, J. Mourao, J. P. Nunes, T. Qian, Extending coherent state transforms to Clifford analysis, Journal of Mathematical Physics, 2016, 57(10): 103505.
2015
*138[YDQ] Y. Yang, P. Dang, T. Qian, Stronger uncertainty principles for hypercomplex signals, Complex Variables and Elliptic Equations, 2015, 60(12): 16961711.
*137[DDQ] P. Dang, J.Y. Du, T. Qian, Boundary value problems for periodic analytic functions, Boundary value problems, 2015, 143: 128.
*136[LQS] X. Lyu, T. Qian, B.W. Schulze, Order filtrations of the edge algebra, J. Pseudo Differ. Oper. Appl. 2015, 6(3): 279305.
*135[TQC] L. H. Tan, T. Qian, Q. H. Chen, New aspects of Beurling–Lax shift invariant subspaces, Applied Mathematics and Computation, 2015, 256: 257266.
*134[CQ] X. D. Chen, T. Qian, Estimation of hyperbolically partial derivatives of of rhoharmonic quasiconformal mappings and its applications, Complex Variables and Elliptic Equations. An International Journal, 2015, 60(6): 875892.
*133[MoQM] Y. Mo, T. Qian, W. Mi, Sparse Representation in Szegö Kernels through Reproducing Kernel Hilbert Space Theory with Applications, International Journal of Wavelet, Multiresolution and Information Processing, 2015, 13(4): 1550030.
*132[MoQMC] Y. Mo, T. Qian, W. X. Mai, Q. H. Chen, The AFD Methods to Compute Hilbert Transform, Applied Mathematics Letters, 2015, 45: 1824.
*131[QT] T. Qian, L. H. Tan, Characterizations of Monocomponents: the Blaschke and Starlike types, Complex Analysis and Operator Theory, 2015: 117, DOI 10.1007/s1178501504916.
*130[CQS] D. C. Chang, T. Qian, W. Schulze, Corner Boundary Value Problems, Complex Analysis and Operator Theory, 2015, 9(5): 11571210.
*129[WjQ] J. X. Wang, T. Qian, Approximation of Functions by Higher Order Szegö Kernels I. Complex Variable Cases, Complex Variables and Elliptic Equations, 2015, 60(6): 733747.
*128[ChenQTan] Q. H. Chen, T. Qian, L. H. Tan, Constructive Proof of BeurlingLax Theorem, Chinese Annals ofMathematics, Series B, 2015, 36(1): 141146.
*127[YDQ] Y. Yang, P. Dang, T. Qian, Spacefrequency analysis in higher dimensions and applications, Annali di Matematica Pura ed Applicata, 2015, 194(4): 953968.
2014
*126[YQL] Q. X. Yang, T. Qian, P. T. Li, Spaces of harmonic functions with boundary values in Q^a_{p,q}, Applicable Analysis, 2014, 93(11): 24982518.
*125[SQSW] D. Schepper, T. Qian, F. Sommen, J. X. Wang, Holomorphic Approximation of L_2functions on the Unit Sphere in R3, Journal of Mathematical Analysis and Applications, 2014, 416(2): 659671.
*124[Q23] T. Qian, Adaptive Fourier Decomposition, Rational Approximation, Part 1:Theory, International Journal of Wavelets, Multiresolution and Information Processing, 2014, 12(5): 1461008.
*123[ZMHQ] L. M. Zhang, W. X. Mai, W. Hong, T. Qian, Adaptive Fourier Decomposition, Rational Approximation, Part 2: Software System Design and Development, International Journal of Wavelets, Multiresolution and Information Processing, 2014, 12(5): 146100
*122[MoQ1] Y. Mo, T. Qian, Support vector machine adapted Tikhonov regularization method to solve Dirichlet problem, Applied Mathematics and Computation, 2014, 245: 509519.
*121[XDChenQian2] X. D. Chen, T. Qian, A sharp lower bound of Burkholder’s functional for Kquasiconformal mappings and its applications, Monatshefte für Mathematik, 2014, 175(2): 195212.
*120[LLvQ] P. T. Li, J. H. Lv, T. Qian, A Class of Unbounded Fourier Multipliers on the Unit Complex Ball, Abstract and Applied Analysis, 2014, Art. ID 602121, 8 pp.
*119[MQ3] W. Mi, T. Qian, On backward shift algorithm for estimating poles of systems, Automatica, 2014, 50(6): 16031610.
*118[QWY] T. Qian, J. X. Wang, Y. Yang, Matching Pursuits among Shifted Cauchy Kernels in HigherDimensional Spaces, Acta Mathematica Scientia, 2014, 34(3): 660672.
*117[QChen] T. Qian, Q. H. Chen, Rational Orthogonal Systems are Schauder Bases, Complex Variables and Elliptic Equations, 2014, 59(6): 841846.
*116[XDChenQian] X. D. Chen, T. Qian, Nonstretch mappings for a sharp estimate of the BeurlingAhlfors operator, Journal of Mathematical Analysis and Applications, 2014, 412(2): 805–815.
*115[LptQt ] P. T. Li, T. Qian, Unbounded holomorphic Fourier multipliers on starlike Lipschitz surfaces and applications to Sobolev spaces, Nonlinear Analysis Series A: Theory, Methods & Applications, 2014, 95: 436–449.
*114[WQ1] J. X. Wang, T. Qian, Approximation of monogenic functions by higher order Szeg\”o kernels on the unit ball and the upper half space, Sciences in China: Mathematics, 2014, 57(9): 17851797.
*113[DuQWIII] Z. H. Du, T. Qian, J. X. Wang, Lp polyharmonic Dirichlet problems in regular domains III: The Unit Ball, Complex Variables and Elliptic Equations, 2014, 59(7): 947965.
*112[Q22] T. Qian, Cyclic AFD Algorithm for Best Rational, Mathematical Methods in the Applied Sciences, 2014, 37(6): 846859.
*111[LCQW] Y. F. Li, Q. H. Chen, T. Qian, Y. Wang, Sampling error analysis and some properties of nonbandlimited signals that are reconstructed by generalized sinc functions, Applicable Analysis, 2014, 93(2): 305315.
2013
*110[LQ2] S. Li, T. Qian, On Sparse Representation of Analytic Signal in Hardy Space, Mathematical Methods in the Applied Sciences, 2013, 36 (17): 22972310.
*109[DDQ2] P. Dang, G. T. Deng, T. Qian, A Tighter Uncertainty Principle For Linear Canonical Transform in Terms of Phase Derivative, IEEE Transactions on Signal Processing, 2013, 61(21): 5153 – 5164.
*108[QZ] T. Qian, L. M. Zhang, Mathematical theory of signal analysis vs. Complex analysis method of harmonic analysis, Applied MathematicsA Journal of Chinese Universities, 2013, 28(4): 505530.
*107[DuQW] Z. H. Du, T. Qian, J. X. Wang, Lp polyharmonic Dirichlet problems in regular domains IV: The upperhalf space, Journal of Differential Equations， 2013, 255(5): 779–795.
*106[LdfQ] D. F. Li , T. Qian, Sufficient conditions that the shiftinvariant system is a frame for L2(Rn), Acta Math. Sinica, 2013, 29(8): 16291636.
*105[TQ2013] L. H. Tan, T. Qian, Estimations of convergence rate of rational Fourier series and conjugate rational Fourier series and their applications, 中国科学：数学，2013, 43(6): 541550.
*104[DDQ1] P. Dang, G. T. Deng, T. Qian, A Sharper Uncertainty principle, Journal of Functional Analysis, 2013, 265(10): 22392266.
*103[MMQRS] W. X. Mai, Y. Mo, T. Qian, M. D. Riva, S. Saitoh, A Matrix Inequality for the Inversions of the Restrictions of a Positive Definite Hermitian Matrix, Advances in Linear Algebra & Matrix Theory, 2013, 3(4): 5558.
*102[LQM1] T. Qian, S. Li, W. X. Mai, Sparse Reconstruction of Hardy Signal And Applications to TimeFrequency Distribution, International Journal of Wavelets, Multiresolution and Information Processing, 2013, 11(3): 1350031.
*101[QYQX] T. Qian, Q. X. Yang, Microlocal structure and two kinds of wavelet characterizations about the generalized Hardy spaces, Taiwanese Journal of Mathematics, 2013, 17(3): 10391054.
*100[ChenQQLee] Q. H. Chen, T. Qian, Y. F. Li, ShannonType Sampling for NonBandlimited Signals in Higher Dimensions, Sciences in China, 2013, 56(9): 19151934.
*99[LyfQ] Y. F. Li, T. Qian, Analytic sampling approximation by projection operator with application in decomposition of instantaneous frequency, International Journal of Wavelets, Multiresolution and Information Processing, 2013, 11(5): 1350040.
*98[CCQ] M. Chen, X. T. Chen, T. Qian, Quasihyperbolic Distance in Punctured Planes, Complex Analysis and Operator Theory, 2013, 7(3): 655672.
*97[QWang] T. Qian, Y. B. Wang, Remarks on Adaptive Fourier Decomposition, International Journal of Wavelets, Multiresolution and Information Processing, 2013, 11(1): 114.
*96[DQ2] P. Dang, T. Qian, Transient TimeFrequency Distribution based on Monocomponent Decompositions, International Journal of Wavelets, Multiresolution and Information Processing, 2013, 11(3): 1350022.
*95[QLS] T. Qian, H. Li, M. Stessins, Comparison of Adaptive Monocomponent Decompositions, Nonlinear Analysis: Real World Applications, 2013, 14(2): 1055–1074.
*94[QWe] T. Qian, E. Wegert, Optimal Approximation by Blaschke Forms, Complex Variables and Elliptic Equations, 2013, 58(1): 123133.
2012
*93[CZQ] L. p. Chen, T. Zhong, T. Qian, Higher Order Boundary Integral Formula and IntegroDifferential Equation on Stein Mainfolds, Complex Analysis and Operator Theory, 2012, 6(2): 447464.
*92[QWj] T. Qian, J. X. Wang, Some Remarks on the Boundary Behaviors of Functions in the Monogenic Hardy Spaces, Advances in Applied Clifford Algebras, 2012, 22(3): 819–826.
*91[MQ] W. Mi, T. Qian, Frequency Domain Identification: An Algorithm Based On Adaptive Rational Orthogonal System, Automatica, 2012, 48(6): 11541162.
*90[DQ1] P. Dang, T. Qian, HardySobolev Derivatives of phase and amplitude and their applications, Mathematical Methods in the Applied Sciences, 2012, 35(17): 20172030.
*89[QSW] T. Qian, W. Sproessig, J. X. Wang, Adaptive Fourier decomposition of functions in quaternionic Hardy spaces, Mathematical Methods in the Applied Sciences, 2012, 35(1): 43–64.
*88[YQS2] Y. Yang, T. Qian, F. Sommen, Phase Derivative of Monogenic Signals in Higher Dimensional Spaces, Complex Analysis and Operator Theory, 2012, 6(5): 9871010.
*87[DQW1] Z. H. Du, T Qian, J. X. Wang, Lp Polyharmonic Dirichlet problems in regular domains, II: The upper half plane, Journal of Differential Equations, 2012, 252(2): 17891812.
*86[DeQ] G.T. Deng, T. Qian, An Application of Entire Function Theory to Analytic Signals, Journal of Mathematical Analysis and Applications, 2012, 389(1): 54–57.
*85[MQW] W. Mi, T. Qian, F. Wan, A Fast Adaptive Model Reduction Method Based on TakenakaMalmquist Systems, Systems & Control Letters, 2012, 61(1): 223–230.
2011
*84[YQ7] Y. Yang, T. Qian, 实系数解析函数的零点集合，Acta Mathematica Sinica, 2011, 31A(5): 1160–1166.
*83[QZL] T. Qian, L. M. Zhang, Z. X. Li, Algorithm of Adaptive Fourier Decomposition , IEEE Transactions on Signal Processing, 2011, 59(2): 5899–5906.
*82[DQ2] P. Dang, T. Qian, Analytic Phase Derivatives, AllPass Filters and Signals of Minimum Phase, IEEE Transactions on Signal Processing, 2011, 59(10): 4708–4718.
*81[LptLeongQ] P. T. Li , T. Qian, A class of Fourier multipliers on starlike Lipschitz surfaces, Journal of Functional Analysis, 2011, 261(6): 14151445.
*80[CQRW] Q. H. Chen, T. Qian, G. B. Ren, Y. Wang, BSplines of Blaschke Product Type, Computers and Mathematics with Applications, 2011, 62(10): 36693681.
*79[YQ6] Y. Yang, T. Qian, Zeroes of Slice Monogenic Functions, Mathematical Methods in the Applied Sciences, 2011, 34(11): 1398–1405.
*78[QTW] T. Qian, L. H. Tan, Y. B. Wang, Adaptive Decomposition by Weighted Inner Functions: A Generalization of Fourier Series, Journal of Fourier Analysis and Applications, 2011, 17(2): 175190.
*77[QWa1] T. Qian, Y. B. Wang, Adaptive Fourier series—a variation of greedy algorithm, Advances in Computational Mathematics, 2011, 34(3): 279–293.
*76[DQY] P. Dang, T. Qian, Z. You, HardySobolev spaces decomposition and applications in signal analysis, Journal of Fourier Analysis and Applications, 2011, 17(1): 36–64.
2010
*75[YQ4] Y. Yang, T. Qian, on sets of zeros of cliffordalgebravalued polynomials, Acta Mathematica Scientia, 2010, 30(3): 10041012.
*74[ZLQ] D. S. Zhou, D. Z. Liu, T. Qian, Fixed trace $\beta$Hermite ensembles: asymptotic eigenvalue density and the edge of the ensity, Journal of Mathematical Physics, 2010, 51(3): 033301.
*73[Q21] T. Qian, Intrinsic monocomponent decomposition of functions: An advance of Fourier theory, Mathematical Methods in Applied Sciences, 2010, 33(7): 880891.
*72[QWXZ] T. Qian, R. Wang, Y. S. Xu, H. Z. Zhang, Orthonormal Bases with Nonlinear Phases, Advances in Computational Mathematics, 2010, 33(1): 7595.
*71[LLQ] H. Li, L.Q. Li, T. Qian, DiscreteTime Analytic Signals and Bedrosian Product Theorems, Digital signal processing, 2010, 20(4): 982–990.
*70[QHLW] T. Qian, I. T. Ho, I. T. Leong, Y. B. Wang, Adaptive decomposition of functions into pieces of nonnegative instantaneous frequencies, International Journal of Wavelets, Multiresolution and Information Processing, 2010, 8(5): 813–833.
2009
*69[QWD] T. Qian, Y. B. Wang, P. Dang, Adaptive Decomposition Into MonoComponents, Advances in Adaptive Data Analysis, 2009, 1(4): 703709.
*68[CQ] Q. H. Chen, T. Qian, Sampling theorem and multiscale spectrum based on Fourier atom, Applicable Analysis, 2009, 88(6): 903919.
*67[AKQ] A. Axelsson, K. I. Kou, T. Qian, Hilbert transforms and the Cauchy integral in Euclidean space, Studia Mathematica, 2009, 193(2): 161187.
*66[GLQ] Y. F Gong, I. T Leong, T. Qian, Two Integral Operators In Clifford Analysis,Journal of Mathematical Analysis and Applications, 2009, 354(2): 435–444.
*65[QY] T. Qian, Y. Yang, Hilbert Transforms on the Sphere With the Clifford Algebra Setting, Journal of Fourier Analysis and Applications, 2009, 15: 753774.
*64[QXYYY] T. Qian, Y. S. Xu, D. Y. Yan, L. X. Yan, B. Yu, Fourier Spectrum Characterization of Hardy Spaces and Applications, Proceedings of the American Mathematical Society, 2009, 137(3): 971980.
*63[Q20] T. Qian, Boundary Derivatives of the Phases of Inner and Outer Functions and Applications, Mathematical Methods in the Applied Sciences, 2009, 32: 253263.
*62[FQ4] M. G. Fei, T. Qian, Pointwise convergence for expansions in spherical monogenics, Acta Mathematica Scientia, 2009, 29B(5): 12411250.
*61[FQ3] M. G. Fei, T. Qian, A note on pointwise convergence for expansions in surface harmonics of higher dimensional Euclidean spaces, Taiwanese Journal of Mathematics, 2009, 13(3): 10531062.
*60[LPQ1] X. M. Li, L. Z. Peng, T. Qian, The PaleyWiener Theorem in the noncommutative and nonassociative octonions, Science in China Series A: Mathematics, 2009, 52(1): 129141.
2008
*59[LPQ2] X. M. Li, L. Z. Peng, T. Qian, Cauchy integrals on Lipschitz surfaces in the octonionic space, Journal of Mathematical Analysis and Applications, 2008, 343(2): 763–777.
*58[QZL] T. Qian, L. M. Zhang, H. Li, Monocomponents vs. IMFs in signal decomposition, International Journal of Wavelets, Multiresolution and Information Processing, 2008, 6(3): 353374.
2007
*57[DQ] R. Delanghe, T. Qian, Half Dirichlet problems and decomposition of Poisson kernels, Advances in Applied Clifford Algebras, 2007, 17(3): 383393.
*56[YQ3] Y. Yang, T. Qian, Codimensionp Shannon sampling theorems, Complex Variables and Elliptic Equations, 2007, 52(1): 920.
*55[KQS2] K. I. Kou, T. Qian, F. Sommen, Sampling with Bessel functions, Advances in Applied Clifford Algebras, 2007, 17(3): 519536.
*54[ZQZ] L. M. Zhang, T. Qian, Q. Y. Zeng, Radon measure formulation for edge detection using rotational wavelets, Communication on Pure and Applied Analysis, 2007, 6(3): 899915.
*53[YQS] Y. Yang, T. Qian, F. Sommen, Codimensionp PaleyWiener Theorem, Arkiv för Matematik, 2007, 45: 179196.
2006
*52[FQ2] M. G. Fei, T. Qian, Clifford algebra approach to pointwise convergence of Fourier series on spheres, Sciences of China, 2006, 49(11): 15531575.
*51[YQ2] Y. Yang, T. Qian, Schwarz Lemma in Euclidean spaces, Complex Variables and Elliptic Equations, 2006, 51(7): 653659.
*50[PQS] D. P. Pea, T. Qian, F. Sommen, An alternative proof of Fueter’s theorem, Complex Variables and Elliptic Equations. An International Journal, 2006, 51(811): 913–922.
*49[CLQ2] Q. H. Chen, L. Q. Li, T. Qian, Two Families of Analytic Signals with Nonlinear Phase, Physica D. Nonlinear Phenomena, 2006, 221(1): 112.
*48[FQ1] M. G. Fei, T. Qian, Direct Sum Decomposition of L^2(R^n_1) into Subspaces Invariant Under Fourier Transformation, The Journal of Fourier Analysis and Applications, 2006, 12(2): 145155.
*47[QC] T. Qian, Q. H. Chen, Characterization of Analytic Phase Signals, Computers & Mathematics with Applications. An International Journal, 2006, 51(910): 14711482.
*46[YQ1] Y. Yang, T. Qian, An elementary proof of PaleyWiener Theorem in C^n using Clifford algebra, Complex Variables and Elliptic Equations, 2006, 51(5): 599609.
*45[Q19] T. Qian, Monocomponents for decomposition of signals, Mathematical Methods in the Applied Sciences, 2006, 29(10): 11871198.
*44[Q18] T. Qian, Analytic Signals and Harmonic Measures, Journal of Mathematical Analysis and Applications, 2006, 314(2): 526536.
2005
*43[CLQ1] Q. H. Chen, L. Q. Li and T. Qian, Stability of frames generalized by nonlinear atoms, International Journal of Wavelets, Multiresolutionand Information Processing, 2005, 3(4): 465476.
*42[Q17] T. Qian, Characterization of boundary values of functions in Hardy spaces with applications in signal analysis, Journal of Integral Equations and Applications, 2005, 17(2): 159198.
*41[QCL] T. Qian, Q. H. Chen and L.Q. Li, Analytic unit quadrature signals with nonlinear phase, Physica D: Nonlinear Phenomena, 2005, 303 (12): 8087.
*40[KQ3] K.I. Kou and T. Qian, Shannon Sampling in the Clifford Analysis Setting, Z. Anal. Anwendungen, 2005, 24(4): 853870.
*39[KQ2] K.I. Kou and T. Qian, Shannon sampling and estimation of bandlimited functions in the several complex variables setting, Acta Mathematica Scientia, 2005, 25(4): 741754.
2004
38[GQD] Y. F. Gong, T. Qian, J. Y. Du, The structure of solutions of polynomial Dirac equations in Clifford analysis, Complex Variables, 2004, 49(1): 1524.
2003
*37[QS] T. Qian, F. Sommen, Deriving harmonic functions in higher dimensional spaces, Mathematical Methods in the Applied Sciences, 2003, 22(2): 275288.
2002
*36[KQS1] K. I. Kou, T. Qian, F. Sommen, Generalizations of Fueter’s Theorem, Methods and Applications of Analysis, 2002, 9(2): 273289.
*35[KQ1] K. I. Kou, T. Qian, The PaleyWiener theorem in Rn with the Clifford analysis setting, Journal of Functional Analysis, 2002, 189: 227241.
*34[Q16] T. Qian, Calderontype reproducing formulae on Lipschitz curves and surfaces, Journal of the Australian Mathematical Society, 2002, 72: 3345.
*33[QZ3] T. Qian, T. D. Zhong, Hadamard principal value of higher order singular integrals, Chinese Annals of Mathematics Series A, 2002, 23(2): 205212.
2001
*32[Q15] T. Qian, Fourier analysis on starlike Lipschitz surfaces, Journal of Functional Analysis, 2001, 183: 370412.
*31[QY] T. Qian, Q. H. Yu, The schwarzian derivative in Rn, Advances in Applied Clifford Algebras, 2001, 11(S2): 257–268.
*30[QZ2] T. Qian, T. D. Zhong, The differential integral equations on smooth closedorientable manifolds, Acta Mathematica Sinica(Series B), 2001, 21(1): 18.
2000
*29[QZ] T. Qian, T. D. Zhong, Transformation formula of higher order singular integrals on the complex hypersphere, Journal of the Australian Mathematical Society (Series A), 2000, 68: 155164.
*28[JQ] X. H. Ji, T. Qian, Properties of Poisson kernel for a degenerate elliptic equation, Zeitschrift für Analysis and ihre Anwendungen (Mathematical Methods in the Applied Sciences), 2000, 23: 7180.
1999
27[CQ] M. Cowling, T. Qian, A class of singular integralson the ncomplex unit sphere, Scientia Sinica (Series A), 1999, 42(2): 12331245.
1998
26[LQ] R. L. Long, T. Qian, Clifford martingale Phiequivalence between S(f) and f*, Advances in Applied Clifford Algebras, 1998, 8(1): 95107.
*25[Q14] T. Qian, Singular integrals on starshaped Lipschitz surfaces in the quaternionicspace, Mathematische Annalen, 1998, 310 (4): 601630.
1997
24[Q13] T. Qian, Generalization of Fueter’s result to R^{n+1}, Rend. Mat. Acc. Lincei, 1997, 8(9): 111117.
23[Q12] T. Qian, A holomorphic extension result, Complex Variables, 1997, 32(1): 5977.
*22[Q11] T. Qian, Singular integrals with holomorphic kernels and Fourier multipliers on starshape Lipschitz curves, Studia Mathematica, 1997, 123(3): 195216.
1996
21[GQW] G. Gaudry, T. Qian, S. L. Wang, Boundedness of singular integrals with holomorphic kernels on starshaped closed Lipschitz curves, Colloquium Mathematicum, 1996, LXX: 133150.
*20[QR] T. Qian, J. Ryan, Conformal transformations and Hardy spaces arising in Clifford analysis, Journal of Operator Theory, 1996, 35: 349372.
1994
*19[GQ] G. I. Gaudry, T. Qian, Homogeneous even kernels on surfaces, Mathematische Zeitschrift, 1994, 216: 169177.
*18[LMQ] C. Li, A. McIntosh, T. Qian, Clifford algebras, Fourier transforms, and singular Convolution operators on Lipschitz surfaces, Revista Matematica Iberoamericana,1994, 10(3): 665695.
*17[QP] J. Peetre, T. Qian, Möbius covariance of iterated Dirac operators, Journal of the Australian Mathematical Society (Series A), 1994, 56 (3): 112.
1993
*16[GLQ] G. I. Gaudry, R. Long, T. Qian, A Martingale proof of L2boundednessof CliffordValued Singular Integrals, Annali di Mathematica Pura Ed Applicata, 1993, 165: 369394.
1992
*15[GQS] G. Gaudry, T. Qian, P. Sjögren, Singular Integrals related to the Laplacian on the affine group ax+ b, Arkiv for matematik, 1992, 30(2): 259281.
*14[McQ2] A. McIntosh, T. Qian, Lp Fourier multipliers along Lipschitz curves, Transactions of The American Mathematical Society, 1992, 333(1): 157176.
1990
13[McQ1] A. McIntosh, T. Qian, A note on singular integralsalong Lipschitz curves with holomorphic kernels, Approximation Theory and its Applications, 1990, 6(4): 4057.
1989
*12[PQ] L. Z. Peng, T. Qian, A kind of multlinear operators and the Schattenvon Neumann classes, Arkiv for Mat., 1989, 27: 145–154.
1987
11[Q10] T. Qian, BMO boundedness of a certain class of operators, Research and Reviews in Math., 1987, 7(2): 331–332.
1986
*10[Q9] T. Qian, BMO boundedness of maximal operators, Acta Math. Sinica, 1986, 29(3): 317322.
*9[QL] T. Qian, C. Li, Pointwise estimates for a class of singular integrals and higher commutators, Acta Math. Sinica, new series, 1986, 2(3): 248259.
8[Q8] T. Qian, Weighted inequalities concerning the Radon measures of the arclength of curves on the complex plane, Journal of SystemsScience and Mathematical Science, 1986, 6(2): 146153.
1985
*7[Q7] T. Qian, Commutators of multiplier operators, Chin. Ann. of Math, 1985, 6B (4): 401408.
6[Q6] T. Qian, Kakeya needle problem, Maths in Practice and Theory, 1985, 3: 6467.
*5[Q5] T. Qian, Higher Commutators of pseudodifferential operators, Chin. Ann. of Math, 6B(2): 229240.
4[Q4] T. Qian, Commutators of homogeneous multiplier operators, ScientiaSinica, 1985, XXVIII(3): 225234.
1984
3[Q3] T. Qian, On estimate for a multilinear singular integral, Scientia Sinica, 1984, XXVIII(11): 11431154 .
2[Q2] T. Qian, The preservation of the Lipschitz spaces under several maximal operators, Kexue Tongbao, 1984, 29(4): 443447.
1983
1[Q1] T. Qian, Lip boundedness of some maximal operators defined on ${\scr H}$families of sets, Kexue Tongbao (Chinese), 1983,28(21): 1285–1288.

Books and Journal Special Issues Editor 
2019 10.Qian, Tao; Li, Pengtao. Singular integrals and Fourier theory on Lipschitz boundaries. Science Press Beijing, Beijing; Springer, Singapore, 2019. xv+306 pp. ISBN: 9789811364990; 9789811365003 4202 (42B20 42B25 46E35)
2017 9.New Trends in Analysis and Interdisciplinary Applications, by P. Dang, M. Ku, T. Qian and L. G. Rodino, Trends in Mathematics Research Perspectives. 8.Lipschitz 边界上的奇异积分与 Fourier 理论, by T. Qian and P. T. Li, 科学出版社.
2016 7.Mathematical Analysis, Probability and Applications– Plenary Lectures, by Qian, T. and Rodino, L., Springer Proceedings in Mathematics & Statistics.
2015 6.自适应 Fourier 变换, by Qian, T., 科学出版社.
2012 5.Complex Variables and Elliptic Equations, by T. Qian and Z.H. Du, accepted to appear in 2012. 4.Mathematical Methods in the Applied Sciences, by T. Qian, I.T. Leong, 30 November 2012 Volume 35, Issue 17, Page 19992140, Special Issue: Complex Analytic Methods in Signal Processing
2007 3.Communication on Pure and Applied Analysis , by T. Qian and Y. S. Xu (Editors),invited as guest editor for the special issue 6 (3), 2007. 2.Wavelet Analysis and Applications,by T. Qian, V. M. I and Y. S. Xu (Editors), the book series in Applied and Numerical Harmonic Analysis, Springer, 2007.
2004 1.Advances in Analysis and Geometry, by T. Qian, T. Hempfling, A. McIntosh and F. Sommen (Editors) ,book series in Trends in Mathematics, Birkhäuser, 2004.
Book Chapters
2014 "12. [Q24] T. Qian, Fueter mapping theorem in hypercomplex analysis, Springer References: General Aspects of Quaternionic and Clifford Analysis, Operator Theory, edited by Daniel Alpay."
2013 11. Sparse Representation of Signals in Hardy Space, Quaternionic and Clifford Fourier Transforms and Wavelets, by Eckhard Hitzer and Stephen J. Sangwine, Trends in Mathematics, Birkh\”aser, 2013. 10.[bookchapter10] HOW TO CATCH SMOOTHING PROPERTIES AND ANALYTICITY OF FUNCTIONS BY COMPUTERS, L.P. Castro, H. Fujiwara, T. Qian and Saburou Saitoh, MATHEMATICS WITHOUT BOUNDARIES: SURVEYS IN INTERDISCIPLINARY RESEARCH, Edited by Panos Pardalos and Themistocles M. Rassias, The volume will be published by Springer in 2014.
2008 9.Hilbert Transforms on the Sphere and Lipschitz Surfaces, by T. Qian, Quaternionic and Clifford Analysis, Trends in Mathematics, Birkhäuser Verlag Basel/Switzerland, 259275, 2008.
2007 8.Monocomponents for signal decomposition, book series in Applied and Numerical Harmonic Analysis, Springer, 2007. 7.Timefrequency aspects of nonlinear Fourier atoms, by T. Qian, Q. H. Chen and L. Q. Li, the book series in Applied and Numerical Harmonic Analysis, Springer, 2007.
2004 6.Advances in Analysis and Geometry, by T. Qian, T. Hempfling, A. McIntosh and F. Sommen (Editors), bookseries in Trends in Mathematics, Birkhäuser, 2004. 5.Dinitype convergence of Fourier series on the unit sphere of Euclidean spaces, by T. Qian and S. Liu, book series in Trends in Mathematics, Birkhäuser, 2004, pp131148.
2001 4.Singular Integrals and Fourier Multipliers On the Unit Spheres and Their Lipschitz Perturbations, Advances in Applied Clifford Algebras, Vol 11, (S1) 5376, November (2001)– Special Issue, Clifford Analysis Proceedings of the Clifford Analysis Conference, Cetraro, Italy, October, 1998, John Ryan and Daniele C. Struppa Editors.
2000 3.Fourier theory under Möbius transformations, by T. Qian, X. H. Ji, and J. Ryan, CliffordAlgebras and Their Applications in Mathematical Physics, Volume2, edited by John Ryan and Wolfgang Sprössig, Birkhäuser,BostonBaselBerlin (April 2000), 5180.
1995 2.Singular integrals on the mtorus and its Lipschitz perturbations, Clifford Algebras in Analysis and Related Topics, book chapter in the series: Studies in Advanced Mathematics, CRC Press (1995), 94108.
1991 1.Convolution singular integrals on Lipschitz curves,byT. Qian and A.McIntosh, SpringerVerlag, Lecture Notes in Maths 1494 (1991) 142–162.

Conference Proceedings 
2012 16.Sparse Reconstruction of Signals in hardy Spaces, S. Li and T. Qian, the proceedings of QCFTW (of ICCA9) for TIM/Birkhauser, edited by Eckhard MS Hitzer and Steve Sangwine.
2011 15.An adaptive method of model reduction in frequency domain, by Mi Wen and T Qian,IEEE Power Engineering and Automation Conference (PEAM 2011), Sep, Wuhan. 14.Adaptive Fourier Transform Based Signal Denoising, by Zhang, L. M. & Li, H. and Qian, T. (2011). ICSP 2011: International Conference on Signal Processing. 13.Instantaneous Frequencies of Simple Waves and Their application to Sleep Spindle Detection, by Zhang, L.M., Li, H., Wei,Y.T. & Qian, T., Proceedings of 2011 IEEE International Conference on Systems, Man, and Cybernetics (2011). 12. Nonharmonic system with greedy algorithm, by S. Li and T. Qian, accepted to appear in the International Workshop on Electromagnetism and Communication Engineering”. (ECE 2011), IEEE Catalog Number: CF1143kDVD, ISBN: 9781424494385, Conference Code: #18262
2010 11.Frequency Domain Identification with Adaptive Rational Orthogonal System, with M. Wen, Proceedings of 2010 International Conference on System Science and Engineering, Taiwan.
2008 10.A new property of Nevanlinna Functions, by T. Qian, Proceedings of the 16th International Conference of Finite and Infinite Dimensional Complex Analysis and Applications, Dongguk University, Gyeongju, KOREA, July 28August 1, 2008, pp 3849.
2003 9.A mathematical model for edge detection using rotational wavelet transformation, by T. Qian andL. M. Zhang, the 6th IASTED International Conference onComputers, Graphics, and Imaging,} August 1315, 2003, Honolulu,USA. 8.Parameter Analysis of Morlet Wavelet Transform Based Edge Detection, by T. Qian and L. M. Zhang, Proceedings of the 7th WSEASInt. Conf. on CSCC (Circuits, Systems, Communications andComputers)} in Corfu Island, Greece, July 710, 2003. 7.Derivation of monogenic functions and applications, Proceedings of the Centre for Mathematics and its applications, Australian University, Volume 41, 2003,118127.
2002 6.Radon measure formulation of edge detection using rotational wavelets, by T. Qian andL. M. Zhang, Proceedings of the WSEAS conference,Singapore, December, 2002. 5.PaleyWiener theorem and Shannon Sampling in the Clifford analysis setting, Proceedings of the 6th International Conference on Clifford Algebras and their Applications, Invited Volume for Plenary Talks,May 2025, 2002, Cookeville, Tennessee, USA.
1996 4.Singular integrals on starshaped Lipschitz surfaces in the quaternionic space and generalisations to Rn, Proceedings of the Symposium on Analytical and Numerical Methods in Quaternionic and Clifford Analysis, Seiffen, 1996,187196.
1994 3.Transference between infinite Lipschitz graphs and periodic Lipschitz graphs, Proceedings of the Center for Mathematics and its Applications, ANU, vol.33 (1994), 189194.
1989 2.A note on martingales with respect to complex measures, by T. Qian, M. Cowling and G. Gaudry, Miniconference onOperators in Analysis (1989), Proceedings of the Center forMathematical Analysis, 24, ANU, Canberra, (1989), 10–27.
1987 1.Fourier transform on Lipschitz curves, by T. Qian and A. McIntosh, Proceedings of the Center for Mathematical Analysis, ANU, vol. 15, (1987), 157–166.

Professional Society Membership 
Member of the Australian Mathematical Society
