邱道文

教师简介: 

My main research outcomes have been in the following areas. (1) Quantum models of computation, including quantum automata and quantum discrete event systems. (2) Quantum query algorithms, and especially distributed quantum algorithms. (3) Quantum cryptograpy and quantum communication. (4) Quantum states distinguishablility and quantum states cloning. (5) Theory of computation based on quantum and lattice-valued logic. (5) The applications of fuzzy and probabilistic automata to discrete event systems, focusing on diagnosability and supervisory control.

I have published over 200 articles in peer-review journals and conferences. More specifically, these results can be summarized as follows:

 (1) I have systematically studied a number of different QFA (quantum finite automata) models, and solved the decidability of equivalence and minimization of these QFA models (D. Qiu, L. Li, X. Zou, P. Mateus, J. Gruska, Acta Informatica, 2011, 48 (5-6): 271-290; P. Mateus, D. Qiu, L. Li, Information and Computation, 2012, 218: 36-53;L. Li, D. Qiu, Theoretical Computer Science, 2008, 403(1): 42-51).  Therefore, we have answered the problems of how to decide the equivalence of quantum sequential machines proposed by Professor Gudder, and how to decide the equivalence of MM-1QFA proposed by Professor Gruska. In particular, we have answered the problems of how to minimize QFAs proposed by Moore and Crutchfield. We proposed a model of quantum-classical finite automata, named as one-way quantum finite automata together with classical states (D. Qiu, L. Li, P. Mateus, A. Sernadas, Journal of Computer and System Sciences, 2015, 81(2): 359-375). Also, we have studied some properties of 2QFAC, quantum pushdown automata, and quantum Turing machines. In particular, I have established a basic framework of supervisory control of quantum discrete event systems by employing quantum finite automata. Also, I have initiated the study of quantum model learning regarding quantum finite automata.

(2) I have proved the characterization of all Boolean functions that can be solved by quantum 1-query algorithm, and proposed generalized Deutsch-Jozsa problem and algorithm. I have proved the optimal separation in exact quantum and classical query complexity for Simon's problem.

(3) I have studied quantum states discrimination and quantum cloning machines, and we have derived some bounds on unambiguous discrimination and minimum-error discrimination (some bounds are optimal to a certain extent), and some relationships between unambiguous discrimination and minimum-error discrimination have been clarified. Also, we have established a generic machine model of probabilistic cloning and deleting, and proposed a universal probabilistic deleting machine. 

(4) I have studied quantum teleportation and superdence coding based on different entangled states (W-states). We have studied semi-quantum cryptography and proved that a semi-quantum key distribution protocol is unconditional security. 

(5) I have discovered some essential connections between quantum logic and models of computation, and we have established residuated lattice-valued automata theory (D.  Qiu, Information and Computation, 2004, 190(2): 179-195). 

(6) I have established a fundamental framework of the supervisory control for fuzzy discrete event systems (FDES) and developed the supervisory control of probabilistic discrete event systems (PDES), using fuzzy automta and probabilistic automata, respectively. 

(7)  I have designed a number of distributed quantum algorithms, including distributed Grover's algorithms, distributed Shor's algorithms, distributed Simon's algorithms, distributed Deutsch-Jozsa algorithms, etc. In particular, I have proposed a method of error correction for distributed quantum computing.

研究领域: 

将量子与经典计算相互融合，以期达到更好的物理可实现性并本质上优于经典计算（包括状态复杂性和计算能力的优势），具体包括：

• 量子算法与量子计算模型（量子查询算法和查询复杂性、分布式量子算法、量子自动机、量子学习模型）
• 量子信息（量子态的区分、半量子密钥分配、量子通信、量子计算中的纠缠、失谐、和相干性）
• 离散事件系统（与AI相关的问题：量子、模糊、概率、和网络化离散事件系统的监控与诊断以及安全性）
• 模糊与概率自动机

教育背景: 

Jiangxi Normal University, B.S., Mathematics, 1986.9-1990.7.
Jiangxi Normal University, M.S., Mathematics (in Fuzzy logic), 1990.9-1992.12.
Sun Yat-sen University, Ph.D., Mathematics (in Harmonic Analysis), 1997.9-2000.7
Postdoctoral researcher, Department of Computer Science, Tsinghua University (Beijing), 2000.9-2002.7

工作经历: 

Lecturer, Applied Mathematics Department, Guangdong University of Technology,9/1992-7/1997.
Associate Professor, Department of Computer Science, Sun Yat-sen University, 9/2002-12/2003.
Full Professor, and Supervisor of Ph. D students, Department of Computer Science, Sun Yat-sen University, 4/2004-Now.

海外经历: 

Senior Research Associate, Department of Information System, City University of Hong Kong, Hong Kong, 11/2002-2/2003.
Research Fellow, Department of Information System, City University of Hong Kong, Hong Kong, 7/2003-9/2003.
Research Fellow, Department of Information System, City University of Hong Kong, Hong Kong, 6/2004-8/2004.
Visiting scholar, Computer Science Program, Trent University, Canada, 1/2005-4/2004.
Visiting Professor, Department of Computer Science, The University of Western Ontario, Canada, 8/2008.
Visiting Professor, Faculty of Informatics, Masaryk University, Brno, Czech Republik, 12/2009.
Research Fellow, Security and Quantum Information Group-IT, Instituto Superior Tecnico, Lisbon, Portugal, 3/2009-2/2010.

科研项目: 

• 国家自然科学基金“概率网络化离散事件系统的诊断与监控及概率ω-自动机的判定性”，61876195 （2019.01-2022.12）
• 广东省自然科学基金重点项目“量子查询算法和量子密码通信的安全性及数据保密中若干问题”，2017B030311011 （2017.10-2020.9）
• 国家自然科学基金“若干新的量子算法及相关问题”,61572532.（2016.01—2019.12）
• 国家自然科学基金“半量子计算模型与密码通讯中的若干问题”,61272058.（2013.01—2016.12）
• 教育部博士点基金“量子计算模型的状态复杂性与量子通信中的若干问题”,20100171110042.（2011.1—2013.12）
• 国家自然科学基金“剩余格值自动机的状态复杂性及在离散事件系统中的应用”,61073054.（2011.1—2013.12）
• 广东省自然科学基金重点项目“几类非经典计算模型与量子通信中的若干问题”,10251027501000004.（2010.10--2013.9）
• 国家自然科学基金重大研究计划“量子计算模型与量子信息中的若干问题”,90303024.（2004.1-2006.12）
• 国家自然科学基金“几类非经典计算模型及相关问题的研究”,60573006.(2006.1- 2008.12)
• 教育部新世纪优秀人才计划项目,3171403.(2006.1- 2009.12)
• 教育部博士点基金"几类非经典计算模型及相关问题的研究：从模糊、概率到量子"，20050558015（2006．1-2008．12）
• 国家自然科学基金“量子计算模型的判定性、无歧量子信息及相关问题”,60873055 (2009．1-2011．12)
• 中科院软件所计算机科学国家重点实验室开放课题基金 “量子自动机的判定性、计算能力及相关问题”,SYSKF0901 (2009．1- 2010.12)
• 清华大学计算机系智能技术与系统国家重点实验室开放课题基金 “量子计算模型与量子信息中的若干问题”,(2004．1- 2004.12)
• 广东省自然科学基金“量子计算模型与量子信息中的不完备性和极限问题”,031541 (2004.1-2005.12)
• 广东省自然科学基金“基于非经典逻辑的计算模型与量子计算”, 020146 (2003.1-2004.12)

主要学术兼职: 

Theoretical Computer Science 编委

Quantum Reports 编委

Open Journal of Optimization 编委

Frontiers in Computer Science 副主编

Artificial Intelligence Evolution 副主编

Member of Association Computability in Europe

教育部“计算机专业教育丛书-基础理论系列”编委会成员

国际会议报告：

1. Invited Talk: International School and Conference on Quantum Information (ISCQI-2008), Bhubaneswar, India, March 4-12, 2008.

2. Invited Talk: Equivalence issues concerning (quantum) finite automata, Department of Computer Science, the University of Western Ontario, Canada, August 14, 2008.

3. Invited Talk: Quantum computing models: Progress on quantum finite automata and some open problems, Department of Computer Science, Fudan University, Shanghai, September 18, 2008.

4. Invited Talk: Some progress regarding quantum mixed state discrimination, Department of Physics, Tsinghua University, Beijing, December 26, 2008.

5. Invited Talk: A new model of quantum finite automata: quantum finite automata together with classical states, Faculty of Informatics, Masaryk University, Brno, Czech Republik, December 9, 2009.

6. Invited Talk: One-way quantum finite automata with mixed states, Faculty of Informatics, Masaryk University, Brno, Czech Republik, December 14, 2009.

7. Invited Talk: Some progress regarding the bounds on the optimal probability for quantum mixed state discrimination, Faculty of Informatics, Masaryk University, Brno, Czech Republik, December 14, 2009.

8. Invited Talk: Quantum finite automata: Equivalence and minimization, the 2010 Pseudo-Hermitian Hamiltonians in Quantum Physics IX, June 21-24, Zhejiang University, Hangzhou, China.

9. Invited Talk: Semi-quantum key distribution with less states and semi-quantum secret sharing without entanglement, 8th CEQIP (8th Central European Quantum Information Processing, June 2-5, Znojmo, Czech Republic, 2011)

10. Invited Talk: Quantum finite automata: Equivalence and minimization, the 2010 Pseudo-Hermitian Hamiltonians in Quantum Physics IX, June 21-24, Zhejiang University, Hangzhou, China.

11. Seminar Talk: SEMI-QUANTUM SECRET SHARING WITHOUT ENTANGLEMENT, SQIG-IT, Department of Mathematics, Instituto Superior Technico, Portugal, September 30, 2011.

12. Invited Talk: Simultaneous Dense Coding, Faculty of Informatics, Masaryk University, Brno, Czech Republic, June 7, 2011.

13. Invited Talk: Arbitrated Quantum Signature, June 15, Faculty of Informatics, Masaryk University, Brno, Czech Republic, June 11, 2011.

14. Invited Talk: State minimization and succinctness of probabilistic and quantum automata, 2012 International Symposium on QIQL, Zhejiang University, August 10-13, 2012, Hangzhou, China.

15. Invited Talk: State minimization of probabilistic and quantum automata, International Workshop on Quantum Computing and Quantum Information Processing 2012 (QCQIP2012), Chinese Academy of Sciences, August 31-Sep.2, 2012, Beijing, China.

16. Invited Talk: Exponentially more concise quantum recognition of non-RMM regular languages, UTS-AMSS Joint Annual Workshop on Quantum Computing and Quantum Information Processing 2014 (QCQIP2014), Chinese Academy of Sciences, August 26, 2014, Beijing, China.

17. Invited Talk: State succinctness of Quantum Finite Automata, Workshop on Quantum
Information Theory 2014, Shanxi Normal University, December 20, 2014, Xi’An, China.

18. Invited Talk: Power of the interactive proof systems with verifiers modeled by semi￾quantum two-way, Conference on Quantum Computation and Quantum Information 2015, October 16-18, 2015, Luoyang, China.

19. Invited Talk: Characterizations of promise problems (generalized Deutsch-Jozsa and Simon problems) with exact quantum query complexity, Workshop of Tensor Networks and Related Topics in Quantum Information Theory 2017, January 4-6, Zhejiang University, Hangzhou, China.

20. Invited Talk: Characterizations of symmetric partial Boolean functions and time-space complexity of quantum computing, 2018Mathematical & Physical Aspects of Information Sciences, January 5-7, 2018, School of Mathematical Research, Haerbin University of Technology, Haerbin, China.

21. Invited Talk: Promise Problems: D-J problem and Simon problem as well as a test of equality of Boolean functions, 2018 Chinese Association for Cryptologic Research, July 18-20, 2018, Wuyi University, Jiangmen, Guangdong, China.

22. Invited Talk: Quantum computing models and quantum query algorithms with small size, Basic 2020, East China Normal University, January 8, Shanghai, China.

23. Invited Talk: A distributed semi-quantum computing model A method of quantum-classical hybrid computing, The 2020 International Conference on Information Science, Parallel and Distributed Systems (ISPDS 2020), August 14-16,2020,Xian, China.

24. Invited Talk: Quantum 1-query algorithms vs classical super-exponential query algorithms, MLBDBI 2020, October 23-25, 2020, Chengdu, China.

25. Invited Talk: Issues and progress concerning quantum query complexity, 2021 IEEE￾EIECS, September 23-26, 2021, Changchun, China.

26. Invited Talk: Advantages of Exact Quantum Query Algorithms, IEIT2021, April 16, 2021, Suzhou, China.

27. Invited Talk: Distributed Quantum Computing, AINIT 2021, October 15, 2021, Shanghai, China.

28. Invited Talk: Quantum 1-query algorithms vs classical super-exponential query algorithms, 2021 International Conference on Big Data and Intelligent Algorithms (BDIA 2021), July 9-11, 2021, Chongqing, China.

29. Invited Talk: Exact quantum 1-query algorithms and complexity, ISPDS2021, August 13-14, 2021, Hangzhou, China.

30. Invited Talk: Fuzzy and Quantum discrete event systems: supervisory control, ITEI2021, December 10-12, 2021, Guangzhou, China.

31. Invited Talk: Distributed Quantum Computing, IEEE-ICCECE 2022, January 15, 2022, Guangzhou, China.

32. Invited Talk: Quantum Model Learning, CCPCDL 2022 March 11, 2022, Wuhan, China.

33. Invited Talk: Quantum Computing Models and Algorithms as well as Mathematical Basics of Quantum Computing, CCPQT2022, August 5-7, 2022, Xiamen, China.

34. Invited Talk: Distributed Quantum Computing, the 1st Quantum Technology and Industrial Application Conference in Guangdong-Hong Kong-Macao Greater Bay Area, August 17-19, 2022, Guangzhou, China.

35. Invited Talk: Distributed Quantum Algorithms, ADMIT 2022, September 23-25, 2022, Xian, China.

36. Invited Talk: A distributed quantum Shor’s algorithm, AIBDF 2022, November 11, 2022, Guangzhou, China.

37. Invited Talk: Distributed Quantum Computing - Distributed Shor’s Algorithms, CFQCIS 2022, December 9, 2022, Guangzhou, China.

38. Invited Talk: Distributed Quantum Computing, The 4th Guangdong-Hong Kong￾Macao Greater Bay Area (Guangdong) Quantum Cryptography and Information Security Summit Forum, December 9, 2022, Guangzhou, China.

39. Invited Talk: Distributed Quantum Algorithms, ITCA 2022, December 9-11, 2022, Chongqing, China (online).

40. Invited Talk: Distributed Quantum Computing, AIBDF 2022, November 18, 2022, Guangzhou, China.

41. Invited Talk: Quantum Computing Models and Algorithms, and Mathematical Foundations of Quantum Computing, CCPQT 2022, August 5-7, 2022, Xiamen, China.

42. Invited Talk: Distributed Quantum Algorithms, ICIT 2022, December 23-26, 2022, Shanghai, China.

43. Invited Talk: Distributed Quantum Voting Based on Quantum Logic Operators, The New Battlefield of the Second Quantum Revolution, The 16th National Symposium on Modern Logic The 16th National Symposium on Modern Logic, October 28-30, 2022, Shandong, China.

44. Invited Talk: Distributed Quantum Computing, ICHCI 2022, August 12-14, 2022, Guangzhou, China.

45. Invited Talk: Distributed Quantum Algorithms, ICARCV 2022, December 1113, 2022, Singapore.

46. Invited Talk: Distributed Quantum Computing, IWAACE 2022, July 8-10, 2022, Qingdao, China.

47. Invited Talk: Distributed Quantum Algorithms, IHCIT 2022, July 22, 2022 (Friday), Online.

48. Invited Talk: Distributed quantum algorithm for Simon’s problem, ADMIT 2023, September 17, 2023, Chengdu, China.

49. Invited Talk: Distributed Quantum Computing, MICML 2023, December 17, 2023, Chengdu, China.

50. Invited Talk: Distributed quantum algorithm for Simon’s problem, CMSDA 2023, December 23, 2023, Online.

51. Invited Talk: Distributed Quantum Algorithms, Guangdong Province Graduate Academic Forum - Mathematics Sub-Forum, December 29, 2023, Jiangmen, China.

52. Invited Talk: Theoretical Foundation of Quantum Computing: From Quantum Models to Quantum Algorithms, The 5th China Computer Education Conference (CECC2023), December 2, 2023, Xiamen International Conference Center, China.

53. Invited Talk: Distributed quantum algorithm: Simon’s problem, The 10th Academic Symposium on Frontiers in Quantum Information and Quantum Computing Theory, School of Mathematics, South China University of Technology, January 12, 2024, Guangzhou, China.

54. Invited Talk: Distributed Grovers algorithm, CACML 2024, March 22, 2024, Shanghai, China.

55. Invited Talk: Distributed Grovers algorithm, 3CVIP 2024, March 22, 2024, Shanghai, China.

56. Invited Talk: Distributed Grover’s algorithm together with realization of Oracles, CCIE 2024, June 21, 2024, Wuhan, China.

57. Invited Talk: Quantum Model Learning, AIITA 2024, April 12, 2024, Guangzhou, China.

58. Invited Talk: Distributed Quantum Algorithms, CCPQT 2024, October 25, 2024, Zhuhai, China.

59. Invited Talk: Distributed Quantum Algorithms, ACAI 2024, December 20, 2024, Guangzhou, China.

60. Invited Talk: Distributed Quantum Algorithms, CACML 2025, March 28, 2025, Guangzhou, China.

61. Invited Talk: Quantum Machine Learning - Quantum Model Learning, ISCBI 2025, February 14, 2025, Macao, China.

62. Invited Talk: Quantum Machine Learning - Quantum Model Learning, ICAIDE 2025, May 29, 2025, Guangzhou, China.

63. Invited Talk: Quantum Model Learning: Learning QFA via Queries, ArtInHCI 2025, October 21, 2025, NanNing, China.

64. Invited Talk: Quantum Model Learning: Learning quantum finite automata via queries, CCRIS 2025, August 22-24, 2025, Guangzhou, China.

65. Invited Talk: Distributed Quantum Computing: Distributed Grover’s Algorithms, AD￾MIT 2025, October 24-26, 2025, Chengdu, China.

66. Invited Talk: Universal Error Correction for Distributed Quantum Computing, ICCTIT 2025, December 26-28, 2025, Guangzhou, China.

67. Conference Talk: Simultaneous Dense Coding, AQIS2011, August 23-30, 2011, Busan, Korea.

68. Conference Talk: Semi-quantum secret sharing without entanglement, AQIS2011, August 23-30, 2011, Busan, Korea.

69. Conference Talk: Applications on information flow and biomedical treatment of FDES based on fuzzy sequential machines theory, ICIC 2012), July 25-29, 2012, Huangshan, China.

70. Conference Talk: State-based Safe-codiagnosability of Discrete-Event Systems and A Polynomial Verification Algorithm, The 36th Chinese Control Conference, July 26-28, Dalian, China.

71. Conference Talk: Characterizations of promise problems: generalized Deutsch-Jozsa problems, AQIS2017, September 4-8, 2017, National University of Singapore, Singapore.

72. Conference Talk: Generalized Deutsch-Jozsa Problems, The 2017 Annual Symposium on Quantum Mechanics in China, August 21-25, Kunming, Yunnan Province, China.

73. Conference Talk: Characterizations of symmetric and partial Boolean functions, The 2017 Seminar on Quantum Information and Quantum Computer Theory in China, July 21-23, Chifeng, Inner Mongolia, China.

74. Conference Talk: Unambiguous discrimination between mixed quantum states based on programmable quantum state discriminators, The 2018 Fourteenth International Conference on Intelligent Computing August 15-18, 2018, Wuhan, China.

75. Conference Talk (keynote speaker): A distributed semi-quantum computing model: A method of quantum-classical hybrid computing, The 2020 International Conference on Information Science, Parallel and Distributed Systems (ISPDS 2020), August 14-16, 2020, Xi’an, China.

76. Conference Talk (keynote speaker): Distributed quantum algorithm for Simons prob￾lem , 2022 International Conference on Intelligent and Human Computer Interaction Technology (IHCIT 2022), July 22, 2022, Zhuhai, China.

77. Conference Talk (keynote speaker): Distributed quantum algorithm for Simon’s prob￾lem, 2022 International Youth Scientists Conference of Computer Science (YSCCS 2022), July 22-24, 2022, Dalian, China.

78. Conference Talk: Distributed Quantum Vote Based on Quantum Logical Operators, a New Battlefield of the Second Quantum Revolution, The 16th National Conference on Modern Logic, October 28-30, 2022, Shandong, China.

79. Conference Talk (keynote speaker and Session Chair): Distributed quantum algorithm for Simon’s problem, 2023 2nd International Conference on Algorithms, Data Mining, and Information Technology, September 15, 2023.

80. Conference Talk: Theoretical Foundations of Quantum Computing, 2023 Computer Education Conference of China (CECC 2023), December 2-3, 2023, Xiamen, China.

81. Conference Talk: 2023 International Conference on Mathematics, Intelligent Computing and Machine Learning (MICML 2023), December 15-17, 2023, Chengdu, China.

国际会议兼职：

1. Program Committee Member: The 10th Asian Conference on Quantum Information Science (AQIS2010), August 27-31, 2010, The University of Tokyo, Tokyo, Japan.

2. Program Committee Member and Organization Committee Member: the 2010 Pseudo￾Hermitian Hamiltonians in Quantum Physics IX, June 21-24, Zhejiang University, Hangzhou, China.

3. Program Committee Member: The 2010 International Conference on Web Information Systems and Mining (WISM’10) and the 2010 International Conference on Artificial Intelligence and Computational Intelligence (AICI’10), October 23-24, Sanya, China.

4. Program Committee Member: The 2010 Sixth International Conference on Intelligent Computing (ICIC 2010), August 18-21, 2010, Changsha, China.

5. Program Committee Member: The 3rd International Conference on Agents and Artificial Intelligence (ICAART2011), January 28-30, 2011, Rome, Italy.

6. Program Committee Member: 2010 International Joint Conference on Computational Intelligence (ICFC2010), October 24-26, 2010, Valencia, Spain.

7. Program Committee Member: The 10th Asian Conference on Quantum Information Science (AQIS2010), August 27-31, 2010, The University of Tokyo, Tokyo, Japan.

8. Program Committee Member and Organization Committee Member: 2010 PseudoHermitian Hamiltonians in Quantum Physics IX, June 21-24, Zhejiang University, Hangzhou, China.

9. Program Committee Member: 2010 International Conference on Web Information Systems and Mining (WISM’10) and the 2010 International Conference on Artificial Intelligence and Computational Intelligence (AICI’10), October 23-24, Sanya, China.

10. Program Committee Member: The 2010 Sixth International Conference on Intelligent Computing (ICIC 2010), August 18-21, 2010, Changsha, China. 35. Program Committee Member: the 3rd International Conference on Agents and Artificial Intelligence (ICAART2011), January 28-30, 2011, Rome, Italy.

11. Program Committee Member: 2010 International Joint Conference on Computational Intelligence (ICFC2010), October 24-26, 2010, Valencia, Spain.

12. Program Committee Member: The 11th Asian Conference on Quantum Information Science (AQIS2011), August 23-30, 2011, Pukyong National University, Busan, Korea.

13. Program Committee Member: The 12th Asian Conference on Quantum Information Science (AQIS2012), August 23-26, 2012, Soochow University, Suzhou, China.

14. Program Committee Member: The 2011 Seventh International Conference on Intelligent Computing (ICIC 2011), August 11-14, 2011, Zhengzhou, China.

15. Program Committee Member: The 2012 Eighth International Conference on Intelligent Computing (ICIC 2012), July 25-29, 2012, Huangshan, China.

16. Program Committee Member: The 3rd International Conference on Quantitative Logic and Soft Computing (QL& SC’2012), May 12-15, Xi’an, China.

17. Program Committee Member: 2012 International Symposium on QIQL, Zhejiang University, August 10-13, 2012, Hangzhou, China.

18. Program Committee Member: The 13th Asian Conference on Quantum Information Science (AQIS2013), August 25-30, 2013, The Institute of Mathematical Sciences, Chennai, India.

19. Program Committee Member: The 5th International Conference on Fuzzy Computation Theory and Applications(FCTA2013), September 20-22, 2013, Vilamoura, Portugal.

20. Program Committee Member: The 2014 Ninth International Conference on Intelligent Computing (ICIC 2014), August 2-5, 2014, Taiyuan, China.

21. Program Committee Member: The 6th International Conference on Fuzzy Computation Theory and Applications (FCTA2014), October 22-24, 2014, Rome, Italy.

22. Program Committee Member: The 2015 Eleventh International Conference on Intelligent Computing (ICIC 2015), August 20-23, 2015, Fuzhou, China.

23. Program Committee Member: The 7th International Conference on Fuzzy Computation Theory and Applications (FCTA2015), November 12-14, 2015, Lisbon, Portugal.

24. The program committee of Special Issue: LATA2016 Information and Computation.

25. Program Committee Member: The 2016 twelfth International Conference on Intelligent Computing (ICIC 2016), August 2-5, 2016, Lanzhou, China.

26. Program Committee Member: The 8th International Conference on Fuzzy Computation Theory and Applications (FCTA2016), November 9-11, 2016, Porto, Portugal.

27. The program committee of Special Issue: LATA2017 Information and Computation.

28. Program Committee Member: The 2017 Thirteenth International Conference on Intelligent Computing (ICIC 2017), August 7-10, 2017, Liverpool, UK.

29. Program Committee Member: The 18th Asian Conference on Quantum Information Science (AQIS2018) , September 8-12, 2018, Nagoya University, Nagoya, Japan.

30. Program Committee Member: The 2018 Fourteenth International Conference on Intelligent Computing (ICIC 2018), August 15-18, 2018, Wuhan, China.

31. Program Committee Member: The 2018 Tenth International Joint Conference on Computational Intelligent (IJCCI 2018)

32. Program Committee Member: The 11th International Conference on Fuzzy Computation Theory and Applications (FCTA 2019), September 17-19, 2019, Vienna, Austria.

33. Program Committee Member: The 2019 Fifteenth International Conference on Intelligent Computing (ICIC 2019), August 3-6, 2019, Nanchang, China.

34. Program Committee Member: The 2020 Sixteenth International Conference on Intelligent Computing (ICIC 2020), October 2-5, 2020, Bari, Italy.

35. Program Committee Member: The 12th International Conference on Fuzzy Computation Theory and Applications (FCTA 2020), November 2-4, 2020.

36. Program Committee Member: The 2021 Seventeenth International Conference on Intelligent Computing (ICIC 2020), August 12-15, 2021, Shenzhen, Guangdong Province, China.

37. Program Committee Member: The 2024 twentieth International Conference on Intelligent Computing (ICIC 2024), August 5-8, 2024, Tianjin, China.

38. Program Committee Member: The 2025 9th International Conference on Control Engineering and Artificial Intelligence (CCEAI 2025), Januray 16-19, 2025, Ho Chi Minh City, Vietnam.

39. Program Committee Member: The 2025 9th International Conference on Artificial Intelligence, Automation and Control Technologies (AIACT 2025), February 17-21, 2025, Sapporo, Japan.

40. Program Committee Member: The 2025 7th International Conference on Control and Computer Vision (ICCCV 2025), March 28-30, 2025, Wuhan, China.

41. Program Committee Member: The 2025 1st International Conference on Advanced Machine Learning and Data Science (AMLDS 2025), July 19-21, 2025, Tokyo, Japan.

42. Program Committee Member: The 2025 twentieth International Conference on Intelligent Computing (ICIC 2025), July 26-29, 2025, Ningbo, China.

43. Technical Procedures Committee Chairman: The 2022 1st International conference on Cloud Computing, Performance Computing and Deep Learning(CCPCDL 2022), March 11-13, 2022, Wuhan, China.

44. International Technical Committe Member: 2022 International Conference on Innovations and Development of Information Technologies and Robotics (IDITR 2022), May 27-29, Chengdu, China.

45. Conference Chair: 2022 International Conference on Intelligent and Human-Computer Interaction Technology (IHCIT 2022), Zhuhai, China.

46. Publicity Chair: The 1st International Conference on Computing, Communication, Perception and Quantum Technology (CCPQT2023), October 28 - 30, 2022, Xiamen, China.

47. Publicity Chair: The 2nd International Conference on Computing, Communication, Perception and Quantum Technology (CCPQT2023), September 22-24, 2023, Xiamen, China.

48. Program Committee Member: the 2023 International Conference on Applied Intelligence (ICAI 2023), December 8-12, 2023, Nanning, Guangxi, China.

49. Program Chair: the 2023 International Conference on Mathematics, Intelligent Computing and Machine Learning (MICML 2023), December 15-17, 2023, Chengdu, China.

50. Publicity Chair: 2024 International Conference on Computing, Information Science and System (CCISS 2024), Xiamen, China.

51. Technical Committee Member: The 2nd Industrial Electronics and Intelligent Systems Conference (IEISC 2024), April 18-20, 2024, Istanbul, Turkey.

52. Chair of the Workshop: IInternational Conference on Optoelectronics, Computer Science and Algorithms(OCSA 2025), September 19-21, 2025, Changsha, China.

53. Publication Chair: 2025 International Conference on Quantum Computing and Communication Technology(ICQCT 2025), November 28-30, 2025, Kuala Lumpur, Malaysia.

54. Publicity Chair: IEEE 4th International Conference on Computing, Communication, Perception and Quantum Technology(IEEE CCPQT 2025), October 24-26, 2025, Erdos, China.

组织国际会议:

1.2024 International Academic Conference on Applied Computational Intelligence, Informatics and Big Data Conference Chair
Date: July 26, 2024 to July 28, 2024
Location: Guangzhou

2.2024 4th International Conference on Communication Technology and Information Technology Conference Chair
Date: December 27, 2024, to December 29, 2024
Location: Guangzhou

3.2025 4th International Conference on Algorithms, Computing, and Machine Learning Conference Chair
Date: March 28, 2025, to March 30, 2025
Location: Guangzhou

4.2025 6th International Conference on Control, Robotics and Intelligent System Conference Chair
Date: August 22, 2025, to August 24, 2025
Location: Guangzhou

5.2025 5th International Conference on Communication Technology and Information Technology Conference Chair
Date: December 26, 2025, to December 28, 2025
Location: Guangzhou

教授课程: 

代表性论著: 

专著与译著

1. Daowen Qiu*, Theoretical Foundations of Quantum Computing, San Francisco: Morgan Kaufmann Publishers, 2025.

2. 邱道文, 量子计算理论基础, 北京: 清华大学出版社, 2023.

3. 邱道文, 华希铭, 李灏, 黄淮靖译,  给程序员讲透量子计算, 机械工业出版社, 2024; 原著: Robert Hundt, Quantum Computing for Programmers, The Cambridge University Press, 2022.

4. 邱道文, 周旭等译, 薛定谔方程, 机械工业出版社, 2022; 原著: Daniel A. Fleisch, A Students Guide to the Schrödinger Equation, The Cambridge
University Press, 2020.

5. 邱道文, 周旭等译, 人人可懂的量子计算，机械工业出版社，2020；原著：Chris Bernhardt, Quantum computing for everyone, Cambridge, The MIT Press，Cambridge, Massachusetts，London, England，2019.

6. 李绿周, 邱道文, 量子有限自动机：等价性和最小化, 杭州: 浙江大学出版社, 2019.  

书中章节

1. Daowen Qiu*, L.Z. Li, P. Mateus, J. Gruska, Quantum finite automata, in: Finite State Based Models and Applications (Edited by Jiacun Wang), CRC Handbook (Invited Chapter), (2012)113-144.

2. Paulo Mateus, Daowen Qiu, Andre Souto, Quantum machines with classical control, Logic and Computation: Essays in Honour of Amilcar Sernadas, College Publications, London, 2017.  

综述论文

1. Z. Li, Z. Deng, Z. Zhou, Daowen Qiu*, F. Zhu, L. Luo, Development and application of distributed ion trap quantum computing, Information and Communication Technology and Policy, 2023, 49(7): 2-8.
2. X. Rao, Z. Li, X. Song, F. Zhu, H. Liu, E. Cui, Z. Gao, M. Huang, Z. Han, Daowen Qiu*, Z. Zhou, L. Luo, Development and Trend of Trapped Ion Quantum Computers, WORLD SCI-TECH R&D, 2022, 44(2): 157-171.

3. P. Mateus, Daowen Qiu*, A. Souto, Quantum machines with classical control, Logic and Computation: Essays in Honour of Amilcar Sernadas. College Publications, London, 2017, pp.271-302.

4. Daowen Qiu*, L. Li, P. Mateus, J. Gruska, Quantum finite quantum automata, in: Finite State Based Models and Applications (Edited by Jiacun Wang), CRC Handbook (Invited Chapter), 2012, pp. 113-1443. 

5. Daowen Qiu*, L. Li, An overview of quantum computation models: quantum automata, Frontiers of Computer Science in China, 2008, 2(2): 193-207.

分布式量子算法

1. Daowen Qiu*, L. Xiao, L. Luo, P. Mateus, Error correction for distributed quantum computing, EPJ Quantum Technology, 2025, DOI:10.1140/epjqt/s40507-025-00455-x.

2. H. Li, Daowen Qiu*, L. Luo, Distributed Deutsch-Jozsa algorithm, The Journal of Supercomputing, 2025, 81: 1221.

3. H. Li, Daowen Qiu*, L. Luo, P. Mateus, Exact distributed quantum algorithm for generalized Simon’s problem, Acta Informatica, 2024, 61: 131-159.

4. Daowen Qiu*, L. Luo, P. Mateus, Distributed Grover’s algorithm, Theoretical Computer Science, 2024, 993: 114461.

5. X. Zhou, Daowen Qiu*, L. Luo, Distributed Bernstein-Vazirani algorithm, Physica A: Statistical Mechanics and its Applications, 2023, 629: 129209.

6. X. Zhou, Daowen Qiu*, L. Luo, Distributed exact Grover’s algorithm, Frontiers of Physics, 2023, 18(5): 51305.

7. L. Xiao, Daowen Qiu*, L. Luo, P. Mateus, Distributed Shor’s algorithm, Quantum Information and Computation, 2023, 23(1&2): 0027-0044.

8. J. Tan, L. Xiao, Daowen Qiu*, L. Luo, P. Mateus, Distributed quantum algorithm for Simon’s problem, Physical Review A, 2022, 106: 032417.

9. Kai Li, Daowen Qiu*, Lvzhou Li, et al., Application of distributed semi-quantum computing model in phase estimation, Information Processing Letters, 2017, 120:23-29. 

量子计算模型、量子查询算法、及量子查询复杂性学术论文

1.  L. Xiao, Daowen Qiu*, State complexity of one-way quantum finite automata together with classical states, Journal of Computer and System Sciences, 2025, 154: 103659.

2. Daowen Qiu*, Learning quantum finite automata with queries, Mathematical Structures in Computer Science, 2024, 34(2): 128-146.

3. G. Xu, Daowen Qiu*, B. Zhang, T. Wang, Y. Zhang, Randomized decision tree complexity of Deutsch-Jozsa problem and a generalization, Quantum Information Processing, 2024, 23: 79.

4. X. Zhou, Daowen Qiu*, L. Luo, Succinct quantum classification algorithm based on quantum circuit model, Chinese Journal of Physics, 2023, 83: 195-213.

5. Z. Wu, Daowen Qiu*, J. Tan, H. Li, G. Cai, Quantum and classical query complexities for generalized Simon’s problem, Theoretical Computer Science, 2022(924): 171-186.

6. Daowen Qiu*, Guoliang Xu, Exact Quantum 1-Query Algorithms and Complexity, SPIN 11 (3)  (2021) 2140001.

7. Z. Xie, Daowen Qiu*, G. Cai, J. Gruska, P. Mateus, Testing Boolean functions poperties, Fundamenta Informaticae, 2021, 182(4): 321-344.

8. Xu Zhou, Daowen Qiu*,  Blind quantum machine learning based on quantum circuit model, Quantum Information Processing, 2021,  Accepted for publication.

9. Daowen Qiu*, Shenggen Zheng, Revisiting Deutsch-Jozsa Algorithm, Information and Computation, 2020, 275: 104605.

10. Guoliang Xu, Daowen Qiu*, From the sum-of-squares representation of a Boolean function to an optimal exact quantum query algorithm, Quantum Information Processing, 2021,20:33.

11. Guoliang Xu, Daowen Qiu*, Partial Boolean functions with exact quantum query complexity one, Entropy, 2021, 23(2): 189.

12. Fang Yu, Daowen Qiu*, Xiaoming Wang, Qin Li, Lvzhou Li, Jozef Gruska, Security improvements of several basic quantum private query protocol with O(log N) communication complexity, Theoretical Computer Science, 2020, 807: 330-340.

13. Zhengwei Xie, Daowen Qiu*, Quantum and classical query complexities for generalized Deutsch-Jozsa problems, Quantum Information Processing, 2020, 19: 150.  

14. Zhenggang Wu, Daowen Qiu*, Guangya Cai, Yinuo Lin, Yikang Zhu, Quantum and Classical Query Complexities for Generalized Simon's Problem, submitted to TCS.

15. Minghua Pan, Daowen Qiu*, Paulo Mateus, Jozef Gruska, Entangling and disentangling in Grover's search algorithm, Theoretical Computer Science, 2019, 773:138-152. 

16. Minghua Pan, Daowen Qiu*, Operator coherence dynamics in Grover's quantum search algorithm, Physical Review A, 2019, 100: 012349. 

17. Daowen Qiu*, Shenggen Zheng, Generalized Deutsch-Jozsa problem and the optimal quantum algorithm, Physical Review A, 2018, 97:062331.

18. Zhengwei Xie, Daowen Qiu*, Guangya Cai, Quantum algorithms on Walsh transform and Hamming distance for Boolean functions, Quantum Information Processing, 2018, 17:139. 

19. Guangya Cai, Daowen Qiu*, Optimal separation in exact query complexities for Simon's problem, Journal of Computer and System Sciences, 2018, 97:83-93. 

20. Guoliang Xu, Daowen Qiu*, Xiangfu Zou, Jozef Gruska, Improving the success probability for Shor’s factorization algorithm, Essays Presented to Kenichi Morita on the Occasion of his 70th, In: Adamatzky A. (eds) Reversibility and Universality：Emergence, Complexity and Computation, vol 30. Springer, Cham, 2018.

21. Shenggen Zheng, Lvzhou Li, Daowen Qiu*, Jozef Gruska, Promise problems solved by quantum and classical finite automata, Theoretical Computer Science, 2017, 666:48-64. 

22. Minghua Pan, Daowen Qiu*, Shenggen Zheng, Global multipartite entanglement dynamics in Grover's search algorithm, Quantum Information Processing, 2017, 16:211. 

23. Kai Li, Daowen Qiu*, Lvzhou Li, et al., Application of distributed semi-quantum computing model in phase estimation, Information Processing Letters, 2017, 120:23-29. 

24. Jozef Gruska, Daowen Qiu, Shenggen Zheng, Generalizations of the distributed Deutsch-Jozsa promise problem, Mathematical Structures in Computer Science, 2017, 27(3): 311-331.

25. Daowen Qiu*, Lvzhou Li, Paulo Mateus, Amilcar Sernadas, Exponentially more concise quantum recognition of non-RMM languages, Journal of Computer and System Sciences, 2015, 81(2):359-375. 

26. Shenggen Zheng, Daowen Qiu*, Jozef Gruska, Power of the interactive proof systems with verifiers modeled by semi-quantum two-way finite automata, Information and Computation, 2015, 241:197-214.   

27. Lvzhou Li, Daowen Qiu, Lower bounds on the size of semi-quantum finite automata, Theoretical Computer Science, 2015, 623:75-82. 

28. Jozef Gruska, Daowen Qiu, Shenggen Zheng*, Potential of quantum finite automata with exact acceptance, International Journal of Foundations of Computer Science, 2015, 26(3):381-398. 

29. Fang Yu, Daowen Qiu*, Haozhen Situ, et al., Enhancing User-Privacy in Sarg04-Based Private Database Query Protocols, Quantum Information Processing, 2015, 14(11):4201-4210. 

30. Fang Yu, Daowen Qiu*, Coding-based quantum private database query using entanglement, Quantum Information & Computation, 2014, 14(1-2): 91-106. 

31. Shenggen Zheng*, Jozef Gruska, Daowen Qiu, On the State Complexity of Semi-quantum Finite Automata, RAIRO-Theoretical Informatics and Applications, 2014, 48(2): 187-207. 

32. Shenggen Zheng, Daowen Qiu*, From quantum query complexity to state complexity, Springer International Publishing (Gruska Festschrift), LNCS 8088，231-245, 2014.

33. Shenggen Zheng, Daowen Qiu, L.Z. Li, et al, State succinctness of two-way finite automata with quantum and classical states, Theoretical Computer Science, 2013, 499: 98-112.

34. Shenggen Zheng, Daowen Qiu, L.Z. Li, Jozef Gruska, One-way finite automata with quantum and classical states, In: H. Bordihn, M. Kutrib, and B. Truthe (Eds.), Dassow Festschrift 2012, Lecture Notes in Computer Science, Vol. 7300, 2012, pp. 273–290.

35. Lvzhou Li, Daowen Qiu*, Xiangfu Zou, et al., Characterizations of one-way general quantum finite automata, Theoretical Computer Science, 2012, 419: 73-91. 

36. Shenggen Zheng, Daowen Qiu*, Lvzhou Li, Some languages recognized by two-way finite automata with quantum and classical states, International Journal of Foundation of Computer Science, 2012, 23(5): 1117-1129. 

37. Paulo Mateus, Daowen Qiu, Lvzhou Li, On the complexity of minimizing probabilistic and quantum automata, Information and Computation, 2012, 218: 36-53. 

38. Daowen Qiu*, Lvzhou Li, Xiangfu Zou, Paulo Mateus, Jozef Gruska, Multi-letter quantum finite automata: decidability of the equivalence and minimization of states, Acta Informatica, 2011, 48 (5-6): 271-290. 

39. Shenggen Zheng, Lvzhou Li, Daowen Qiu*, Two-tape finite automata with quantum and classical states, International Journal of Theoretical Physics, 2011, 50(4): 1262-1281. 

40. Xiangfu Zou, Daowen Qiu*, Lihua Wu, Lvjun Li, Lvzhou Li, On mathematical theory of the duality computers, Quantum Information Processing, 2009, 8(1): 37-50. 

41. Daowen Qiu*, Sheng Yu, Hierarchy and equivalence of multi-letter quantum finite automata, Theoretical Computer Science, 2009, 410(30-32): 3006-3017. 

42. Lvzhou Li, Daowen Qiu*, A note on quantum sequential machines, Theoretical Computer Science, 2009, 410(26): 2529-2535. 

43. Lvzhou Li, Daowen Qiu*, Determining the equivalence for one-way quantum finite automata, Theoretical Computer Science, 2008, 403(1): 42-51. 

44. Jiayan Wen, Yi Huang, Daowen Qiu*, Entanglement properties of adiabatic quantum algorithms, International Journal of Quantum Information, 2009, 7(8): 1531-1539. 

45. Jiayan Wen, Daowen Qiu*, Entanglement in adiabatic quantum searching algorithms, International Journal of Quantum Information, 2008, 6(5): 997-1009. 

46. Daowen Qiu*, Lvzhou Li, An overview of quantum computation models: Quantum automata, Frontiers of Computer Science in China, 2008, 2(2): 193-207.

47. Daowen Qiu*, Notes on automata theory based on quantum logic, Science in China - Series F: Information Sciences, 2007, 50(2): 154-169. 

48. Daowen Qiu*, Automata theory based on quantum logic: reversibilities and pushdown automata, Theoretical Computer Science, 2007, 386(1-2): 38-56.

49. Lvzhou Li, Daowen Qiu*, Determination of equivalence between quantum sequential machines, Theoretical Computer Science, 2006, 358(1): 65-74. 

50. Daowen Qiu*, Mingsheng Ying, Characterizations of quantum automata, Theoretical Computer Science, 2004, 312(2-3): 479-489. 

51. Daowen Qiu*, Automata theory based on quantum logic: some characterizations, Information and Computation, 2004, 190(2): 179-195.  

52. 邱道文*,量子自动机的刻画, 软件学报, 2003, 14(1): 9-15. 

53. 邱道文*,基于量子逻辑的自动机和文法理论,软件学报,2003,14(1):23-27. 

54. Daowen Qiu*, Characterization of sequential quantum machines, International Journal of Theoretical Physics, 2002, 41(5): 811-822. 

量子区分与克隆、量子纠缠与失谐、量子相干性及量子通信相关学术论文

1. C. Xiong, S. Kim, Daowen Qiu*, A. Kumar, and J. Wu, Characterizing entanglement using quantum discord over state extensions, Physical Review A, 2022, 105(1): 012426.

2. Chunhe Xiong, Sunho Kim, Daowen Qiu*, Characterizing quantum correlation with the correlated part of partial coherence, Physical Review A, 2019, 100: 032334. 

3. Lvzhou Li, S. Zheng, H. Situ, Daowen Qiu, Capability of local operations and classical communication to distinguish bipartite unitary operations, Physical Review A, 2017, 96: 052327.

4. Zhiming Huang; Daowen Qiu*, Quantum games under decoherence, International Journal of Theoretical Physics, 2016, 55(2):965-992. 

5. Zhiming Huang; Daowen Qiu*, Paulo Mateus, Geometry and dynamics of one-norm geometric quantum discord, Quantum Information Processing, 2016, 15(1): 301-326. 

6. Zhiming Huang, Daowen Qiu*, Geometric quantum discord under noisy environment, Quantum Information Processing, 2016, 15(5): 1979-1998. 

7. Haozhen Situ, Daowen Qiu, Nikola Paunkovic*, Paulo Mateus, Secure N-dimensional simultaneous dense coding and applications, International Journal of Quantum Information, 2015, 13(7):1550051. 

8. Yinxiang Long, Dongyang Long, Daowen Qiu, Quantum secret sharing of classical messages by genuinely maximally entangled six-qubit state, Journal of Frontiers of Computer Science and Technology, 2012, 6(5): 465-472.  

9. Yi Huang, Daowen Qiu*, Concurrence vectors of multipartite states based on coefficient matrices, Quantum Information Processing, 2012, 11(1): 235-254. 

10. Yinxiang Long*, Daowen Qiu, Dongyang Long, Quantum secret sharing of multi-bits by an entangled six-qubit state, Journal of Physics A-Mathematical and Theoretical, 2012, 45. 

11. Jicheng Tao*, Daowen Qiu, Quantum isometry groups for dihedral group D2(2n+1), Journal of Geometry and Physics, 2012, 62(9): 1977-1983. 

12. Yinxiang Long*, Daowen Qiu, Dongyang Long, An efficient separability criterion for n-partite arbtrarily dimensional auantum states, International Journal of Quantum Information, 2011, 9(4): 1101-1112. 

13. Haozhen Situ, Daowen Qiu*, Investigating the implementation of restricted sets of multiqubit operations on distant qubits: a communication complexity perspective, Quantum Information Processing, 2011, 10(5): 609-618. 

14. Daowen Qiu*, Lvjun Li, Minimum-error discrimination of quantum states: Bounds and comparisons, Physical Review A, 2010, 81(4): 42329. 

15. Daowen Qiu*, Lvjun Li, Relation between minimum-error discrimination and optimum unambiguous discrimination, Physical Review A, 2010, 82(3): 32333-32333. 

16. Yinxiang Long*, Daowen Qiu, Dongyang Long, Perfect teleportation between arbitrary split of six partites by a maximally genuinely entangled six-qubit state, International Journal of Quantum Information, 2010, 8(5): 821-841. 

17. Lvjun Li, Daowen Qiu*, Lvzhou Li, Lihua Wu, Xiangfu Zou, Probabilistic broadcasting of mixed states, Journal of Physics A-Mathematical and Theoretical, 2009, 42(17): 175302. 

18. Haozhen Situ, Daowen Qiu*, Simultaneous dense coding, Journal of Physics A-Mathematical and Theoretical, 2009, 43(5): 295-308. 

19. Huang, Jiayan Wen, Daowen Qiu*, Practical full and partial separability criteria for multipartite pure states based on the coefficient matrix method, Journal of Physics A-Mathematical and Theoretical, 2009, 42(42): 425306-425306. 

20. Yinxiang Long, Daowen Qiu*, Dongyang Long, Perfect teleportation of unknown qudit by a d-level GHZ channel, International Journal of Quantum Information, 2009, 7(4): 755-770. 

21. Yinxiang Long, Daowen Qiu*, Dongyang Long, An entanglement measure based on two-order minors, Journal of Physics A-Mathematical and Theoretical, 2009, 42(26): 265301-265301.

22. Daowen Qiu, Minimum-error discrimination between mixed quantum states, Physical Review A, 2008, 77 (1): 012328, 12 pages.

23. Daowen Qiu*, A sufficient and necessary condition for superdense coding of quantum states, International Journal of Quantum Information, 2008, 6(5): 1115-1125. 

24. Lvzhou Li, Daowen Qiu*, Local entanglement is not necessary for perfect discrimination between unitary operations acting on two qudits by local operations and classical communication, Physical Review A, 2008, 77(3): 32337-32337. 

25. Lvzhou Li, Daowen Qiu*, Optimal discrimination between quantum operations, Journal of Physics A-Mathematical and Theoretical, 2008, 41(33): 1-10. 

26. Lvzhou Li, Daowen Qiu*, The states of W-class as shared resources for perfect teleportation and superdense coding, Journal of Physics A-Mathematical and Theoretical, 2007, 40(35): 10871-10885. 

27. Lvjun Li, Daowen Qiu*, Probabilistic cloning with supplementary information contained in the quantum states of two auxiliary systems, Physics Letters A, 2007, 362(2-3): 143-153. 

28. Daowen Qiu*, Novel cloning machine with supplementary information, Journal of Physics A: Mathematical and General, 2006, 39(18): 5135-5150. 

29. Daowen Qiu*, Some general probabilistic quantum cloning and deleting machines, Physics Letters A, 2003, 308(5-6): 335-342. 

30. Daowen Qiu*, Optimum unambiguous discrimination between subsets of quantum states, Physics Letters A, 2003, 309(3-4): 189-197. 

31. Daowen Qiu*, Upper bound on the success probability for unambiguous discrimination, Physics Letters A, 2002, 303(2-3): 140-146. 

32. Daowen Qiu*, Some analogies between quantum cloning and quantum deleting, Physical Review A, 2002, 65(5): 0-52303. 

33. Daowen Qiu*, Upper bound on the success probability of separation among quantum states, Journal of Physics A: Mathematical and General, 2002, 35(32): 6931-6937. 

34. Daowen Qiu*, Non-optimal universal quantum deleting machine, Physics Letters A, 2002, 301(3-4):112-116. 

35. Daowen Qiu*, Combinations of probabilistic and approximate quantum cloning and deleting, Physical Review A, 2002, 65(5): 052329. 

量子密钥分配、量子签名、量子安全学术论文

1. F. Yang, Daowen Qiu*, P. Mateus, Continuous-variable quantum secret sharing in fast-fluctuating channels, IEEE Transactions on Quantum Engineering, 2023, 4: 4100809.

2. F. Yang, Daowen Qiu*, L. Chen, X. Wan, Finite-size analysis of thermal states quantum cryptography with the optimal noise, Annalen der Physik, 2022, 534(1): 1-10.

3. Fangli Yang, Daowen Qiu*, Thermal states quantum cryptography with linear optics cloning machine, Quantum Information Processing,  2020，19：99.

4. Zhenbang Rong, Daowen Qiu*, Paulo Mateus, Xiangfu Zou, Mediated semi-quantum secure direct communication. Quantum Information Processing, 2021，20：58.

5. Zhenbang Rong, Daowen Qiu*, Xiangfu Zou, Two single-state semi-quantum secure direct communication protocols based on single photons, International Journal of Modern Physics B, 2020, 34(11): 2050106.

6. Zhenbang Rong, Daowen Qiu*, Xiangfu Zou, Semi-Quantum Secure Direct Communication Using Entanglement, International Journal of Theoretical Physics, 2020, 59 (6): 1807-1819.

7. Wei Zhang, Daowen Qiu*, Paulo Mateus, Single-State Semi-quantum Key Distribution Protocol and Its Security Proof, International Journal of Quantum Information, 2020, 18(4): 2050013 (24 pages).

8. Shiping Du, Daowen Qiu*, Paulo Mateus, Jozef Gruska, Enhanced double random phase encryption of quantum images, Results in Physics, 2019, 13:102161. 

9. Shiping Du, Daowen Qiu*, Jozef Gruska, Paulo Mateus, Synthesis of quantum images using phase rotation, Quantum Information Processing, 2019, 18:286. 

10. Jianhao He, Lvzhou Li*, Yifan Huang, Haozhen Situ, Daowen Qiu, High-dimensional quantum key agreement protocol with pairs of single qudits, International Journal of Quantum Information, 2018, 16(3):1850024. 

11. Wei Zhang, Daowen Qiu*, Xiangfu Zou, Paulo Mateus, Analyses and improvement of a broadcasting multiple blind signature scheme based on quantum GHZ entanglement, Quantum Information Processing, 2017, 16:150. 

12. Zhang Wei, Qiu Daowen*, Zou Xiangfu, Improvement of a quantum broadcasting multiple blind signature scheme based on quantum teleportation, Quantum Information Processing, 2016, 15(6): 2499-2519. 

13. Chen Xie, Lvzhou Li*, Daowen Qiu, A Novel Semi-Quantum Secret Sharing Scheme of Specific Bits, International Journal of Theoretical Physics, 2015, 54(10):3819-3824. 

14. Xiangfu Zou, Daowen Qiu*; Shengyu Zhang, Paulo Mateus, Semiquantum key distribution without invoking theclassical party’s measurement capability, Quantum Information Processing, 2015, 14(8):2981-2996. 

15.  Xiangfu Zou, Daowen Qiu*, Three-step semiquantum secure direct communication protocol, Science in China (Series-G), 2014, 57(9):1696-1702. 

16.  Lvzhou Li, Daowen Qiu*, Paulo Mateus, Quantum secret sharing with classical Bobs, Journal of Physics A-Mathematical and Theoretical, 2013, 46(4): 45304-45304. 

17.  Xiangfu Zou, Daowen Qiu*, Comment on "Optimal encryption of quantum bits", Physical Review A, 2013, 88(2): 26302-26302. 

18.  Xiangfu Zou, Daowen Qiu*, Attack and improvements of fair quantum blind signature schemes, Quantum Information Processing, 2013, 12(6): 2071-2085. 

19.  Xiangfu Zou, Daowen Qiu*, Fang Yu, Paulo Mateus, Security problems in the quantum signature scheme with a weak arbitrator, International Journal of Theoretical Physics, 2014, 53: 603–611. 

20.  Qin Li, Dongyang Long, W. H. Chan, Daowen Qiu, Sharing a quantum secret without a trusted party, Quantum Information Processing, 2011, 10(1): 97-106. 

21.  Xiangfu Zou, Daowen Qiu*，Security analysis and improvements of arbitrated quantum signature schemes, Physical Review A, 2010,82: 042325.

22.  Xiangfu Zou, Daowen Qiu*, Reply to "Comment on 'Semiquantum-key distribution using less than four quantum states'", Physical Review A, 2011, 83(4): 46302-46302. 

23.  Xiangfu Zou, Daowen Qiu*, Lvzhou Li, Lihua Wu, Lvjun Li, Semiquantum-key distribution using less than four quantum states, Physical Review A, 2009, 79(5): 52312. 

24.  W. Zhang, Daowen Qiu, Paulo Mateus, Security of a single-state semi-quantum key distribution protocol, Quantum Information Processing, 2017, 16(6): 160.

25.  X.F. Zou, Daowen Qiu, P. Mateus, Security analyses and improvement of arbitrated quantum signature with an untrusted arbitrator, International Journal Theoretical Physics, 2013, 52 (9): 3295-3305.

概率与模糊自动机及与AI相关的离散事件系统学术论文

1. W. Deng, Daowen Qiu*, J. Yang, New Insights into Opacity Verification in Timed Discrete-Event Systems, Automatica, 2025(Accepted).

2. W. Deng, Daowen Qiu*, J. Yang, Initial-location opacity and infinite-step opacity of timed automata with integer resets, IEEE Control Systems Letters, 2025, 9: 2031-2036.

3. W. Deng, Daowen Qiu*, J. Yang, Opacity of Extended Finite Automata with Event Parameters, IEEE Transactions on Automatic Control, DOI:10.1109/TAC.2025.3627016, 2025.

4. J. Yang, W. Deng, Daowen Qiu*, Current-state opacity and initial-state opacity of modular discrete event systems, International Journal of Control, 2022, 95(11): 3037-3049.

5. Jingkai Yang, Weilin Deng, Daowen Qiu*, Cheng Jiang, Opacity of networked discrete event systems, Information Sciences, 2021,543: 328-344.

6.  Weilin Deng, Daowen Qiu*, and Jingkai Yang. Fuzzy Infinite-step Opacity Measure of Discrete Event Systems and Its Applications, IEEE Transactions on Fuzzy Systems, 2020，DOI 10.1109/TFUZZ.2020.3044359

7. Weilin Deng, Daowen Qiu*, Jingkai Yang, Intersection-based Decentralized Supervisory Control of Probabilistic Discrete Event Systems, IEEE Transactions on Automatic Control, 2021, DOI：10.1109/TAC.2021.3061673

8. Weilin Deng, Jingkai Yang, Daowen Qiu*, Supervisory control of probabilistic discrete event systems under partial observation, IEEE Transactions on Automatic Control, 2019, 64(12): 5061-5075. 

9.  Weilin Deng, Daowen Qiu*, Jingkai Yang, Opacity Measures of Fuzzy Discrete Event Systems, IEEE Transactions on Fuzzy Systems, 2020, DOI: 10.1109/TFUZZ.2020.3005335.

10.  Weilin Deng, Daowen Qiu*, State-Based Decentralized Diagnosis of Bi-Fuzzy Discrete Event Systems, IEEE Transactions on Fuzzy Systems, 2017, 25(4): 854-867.  

11.  Weilin Deng, Daowen Qiu*, Bi-fuzzy discrete event systems and their supervisory control theory, IEEE Transactions on Fuzzy Systems, 2015, 23(6): 2107-2121. 

12.  Lvzhou Li, Daowen Qiu*, On the state minimization of fuzzy automata, IEEE Transactions on Fuzzy System, 2015, 23 (2): 434-443.

13.  Weilin Deng, Daowen Qiu*, Supervisory Control of Fuzzy Discrete Event Systems for Simulation Equivalence, IEEE Transactions on Fuzzy Systems, 2015, 23(1):178-192. 

14.  Lihua Wu, Daowen Qiu*, H. Xing, Automata theory based on complete residuated lattice-valued logic: Turing machines, Fuzzy Sets and Systems, 2012, 208: 43-66. 

15.  Lihua Wu, Daowen Qiu*, Automata theory based on complete residuated lattice-valued logic: Reduction and minimization, Fuzzy Sets and Systems, 2010, 161(12): 1635-1656. 

16.  Hongyan Xing, Daowen Qiu*, Pumping lemma in context-free grammar theory based on complete residuated lattice-valued logic, Fuzzy Sets and Systems, 2009, 160(8): 1141-1151. 

17.  Fuchun Liu, Daowen Qiu*, Diagnosability of fuzzy discrete-event systems: A fuzzy approach, IEEE Transactions on Fuzzy Systems, 2009, 17(2): 372-384. 

18.  Daowen Qiu*, Fuchun Liu, Fuzzy discrete-event systems under fuzzy observability and a test algorithm, IEEE Transactions on Fuzzy Systems, 2009, 17(3): 578-589. 

19.  Hongyan Xing, Daowen Qiu*, Fuchun Liu, Automata theory based on complete residuated lattice-valued logic: Pushdown automata, Fuzzy Sets and Systems, 2009, 160(8): 1125-1140. 

20.  Hongyan Xing, Daowen Qiu*, Automata theory based on complete residuated lattice-valued logic: A categorical approach, Fuzzy Sets and Systems, 2009, 160(16): 2416-2428. 

21.  Fuchun Liu, Daowen Qiu*, Hongyan Xing, Zhujun Fan, Decentralized diagnosis of stochastic discrete event systems, IEEE Transactions on Automatic Control, 2008, 53(2): 535-546. 

22.  Fuchun Liu, Daowen Qiu*, Safe diagnosability of stochastic discrete event systems, IEEE Transactions on Automatic Control, 2008, 53(5): 1291-1296. 

23.  Fuchun Liu, Daowen Qiu*, Decentralized supervisory control of fuzzy discrete event systems, European Journal of Control, 2008, 14(3): 234-243. 

24.  Daowen Qiu*, A note on Trillas' CHC models, Artificial Intelligence, 2007, 171(4): 239-254. 

25.  Hongyan Xing, Daowen Qiu*, Fuchun Liu, Zhujun Fan, Equivalence in automata theory based on complete residuated lattice-valued logic, Fuzzy Sets and Systems, 2007, 158(13): 1407-1422. 

26.  Daowen Qiu*, Pumping lemma in automata theory based on complete residuated lattice-valued logic: A note, Fuzzy Sets and Systems, 2006, 157(15): 2128-2138. 

27.  Daowen Qiu*, Huaiqing Wang, A probabilistic model of computing with words, Journal of Computer and System Sciences, 2005, 70(2): 176-200. 

28.  Daowen Qiu*, Supervisory control of fuzzy discrete event systems: A formal approach, IEEE Transactions on Systems, Man, and Cybernetics - Part B: Cybernetics, 2005, 35(1): 72-88. 

29.  Daowen Qiu*, Fuzzifying topological linear spaces, Fuzzy Sets and Systems, 2004, 147(2): 249-272. 

30.  Daowen Qiu*, Characterizations of fuzzy finite automata, Fuzzy Sets and Systems, 2004, 141(3): 391-414. 

31.  邱道文*, 基于完备剩余格值逻辑的自动机理论——Ⅱ.可逆性及同态, 中国科学E辑：技术科学，2003，33(4): 340-349. 

32.  邱道文*, 基于完备剩余格值逻辑的自动机理论——Ⅰ.拓扑刻画, 中国科学E辑：技术科学, 2003, 33(2): 137-146. 

33.  Huaiqing Wang, Daowen Qiu*, Computing with words via turing machines: A formal approach, IEEE Transactions on Fuzzy Systems, 2003, 11(6): 742-753. 

34.  Daowen Qiu*, Automata theory based on complete residuated lattice-valued logic (II), Science in China - Series F: Information Sciences, 2002, 45(6): 442-452.

35.  Daowen Qiu*, Automata theory based on complete residuated lattice-valued logic, Science in China - Series F: Information Sciences, 2001, 44(6): 419-429.   

早年在调和分析和模糊拓扑方面的一些学术论文

1.  Daowen Qiu, Donggao Deng, T(1) Theorem of Weak kernel form and Commutators on Homomorphism Spaces, Acta Mathematica Sinica, 2002, 45 (1): 65-74. (in Chinese).

2.  Daowen Qiu, Some of integral operators on spaces of homogeneous type, Annals of Mathematics, 2001, 22A: 797-804. (in Chinese)

3.  Daowen Qiu, Compactness of commutators on spaces of homogeneous type, Advance in Mathematics, 2003, 33 (3): 345-355. (in Chinese)

4.  Daowen Qiu, Characterizations of some of function spaces, Journal of Mathematical Research and Exposition, 2001, 21: 433-437. (in Chinese)

5.  Daowen Qiu, Zhujun Fan, The Wallman Extensions in Fuzzifying Topology, Journal of Fuzzy Mathematics 9 (2001) 81-88.

6.  Daowen Qiu, Some of Commutators on Spaces of Homogeneous Type, Northeast. Math. J. 16 (2000) 215-224.

7.  Daowen Qiu, Molecular characterizations of some Hardy spaces, Journal of Sun Yat-sen University 39 (1) (2000) 5-8. (in Chinese)

8.  Daowen Qiu, Fuzzy Compactness of Cover-style, Journal of Sun Yat-sen University 37 (3) (1998) 46-49. (in Chinese)

9.  Daowen Qiu, Fuzzy Paracompactness of Cover-style, Journal of Sun Yat-sen University 37 (5) (1998) 107-109. (in Chinese)

10.  Daowen Qiu, Fuzzifying Compactification, Journal of Fuzzy Mathematics 5 (1997) 251- 262.

11.  Daowen Qiu, Non-connectedness in Fuzzifying Topology, Journal of Engineering Mathematics 12 (1995) 42-48. (in Chinese)

12. Daowen Qiu, Local Compactness in Fuzzifying Topology, Fuzzy Systems and Mathematics 8 (1994) 183-188. (in Chinese)

13. Daowen Qiu, Jizhong Shen, Generalization of KyFan Theorem in Fuzzifying Topology, Fuzzy Systems and Mathematics, 1993, 7 (2): 82-86. (in Chinese)

会议论文

1. W. Deng, Daowen Qiu, J. Yang, Opacity of Parametric Discrete Event Systems, Procedings of the 37th Chinese Control and Decision Conference (CCDC), pp.5627-5633, 2025.

2. H. Li, Daowen Qiu*, Distributed multi-objective quantum search algorithm, Proceedings of the 21st International Conference on Intelligent Computing (ICIC 2025). Lecture Notes in Computer Science, vol 15853. Singapore: Springer Nature Singapore, 2025:
438-449.

3. H. Li, Daowen Qiu*, L. Luo, Distributed generalized Deutsch-Jozsa algorithm, Proceedings of the 30st International Conference on Computing and Combinatorics (COCOON2024). Lecture Notes in Computer Science, vol 15162. Singapore: Springer Nature Singapore, 2025: 214-225.

4. Chongqing Lin, Daowen Qiu*. Notes on supervisory control of fuzzy discrete event systems, 16th International Conference on Intelligent Computing, ICIC 2020. LNAI, vol. 12465, p 341-352, 2020. Springer Nature Switzerland AG 2020.

5. Chongqing Lin, Daowen Qiu*, Weilin Deng. Library readers flow control based on the supervisory control theory of discrete-event systems, 4th International Conference Computer Science and Application Engineering, 2020. Article number: 3425066. ACM 2020.

6. Jingkai Yang, Weilin Deng, Cheng Jiang, Daowen Qiu*, Opacity of Networked Discrete Event Systems, 2019 IEEE 58th Conference on Decision and Control (CDC), Nice, France, December 11-13, 2019. 

7.  Weilin Deng, Jingkai Yang, Cheng Jiang, Daowen Qiu*, Opacity of fuzzy discrete event systems, The 31th Chinese Control and Decision Conference (2019 CCDC), June 3-5, 2019, Nanchang, China, pp. 1846-1851.

8.  Cheng Jiang, Weilin Deng, Daowen Qiu*, Fault diagnosis in unknown discrete event systems via critical tree, The 31th Chinese Control and Decision Conference (2019 CCDC), Nanchang, China, 2019, pp. 1852-1857. 

9.  Weilin Deng, Daowen Qiu*, Economical decentralized safe-diagnosis architecture for discrete-event systems, The 15th International Conference on Control, Automation, Robotics and Vision (ICARCV), Singapore, November 18-21, 2018, pp. 1122-1127. 

10.  Shenggen Zheng, Daowen Qiu*, Jozef Gruska, Time-Space Complexity Advantages for Quantum Computing, International Conference on Theory and Practice of Natural Computing, pp.305-317, Dec.18-20,2017, Prague, CZ; LNCS, Vol.10687, pp. 1-13, 2017. 

11.  Daowen Qiu*, Shenggen Zheng, Characterizations of symmetric partial Boolean functions with exact quantum query complexity, Asian Conference on Quantum Information Science 2017 (AQIS'17), Sep. 4-8, 2017, Singapore .

12.  Weilin Deng, Daowen Qiu*, State-based Safe-codiagnosability of Discrete-Event Systems and A Polynomial Verification Algorithm, Proceedings of the 36th Chinese Control Conference, Dalian, China, July 26-28, 2017.   

13.  Weilin Deng, Daowen Qiu*, State-based Fault Diagnosis of Discrete-Event Systems, the 28th Chinese Control and Decision Conference (2016 CCDC), Yinchuan, China, May 28-30,2016.

14.  Weilin Deng, Daowen Qiu*, Supervisory Control of Bi-Fuzzy Discrete Event Systems Under Partial Observations, In Proceedings of the 33rd Chinese Control Conference, July 28-30, Nanjing, China, 2014.

15.  S. Zheng, J. Gruska, Daowen Qiu, On the State Complexity of Semi-quantum Finite Automata, LATA 2014, Madrid, Spain, March 10-14. Lecture Notes in Computer Science, Vol.8370, pp. 601-612, 2014.

16.  Xiangfu Zou, Daowen Qiu*, Arbitrated Quantum Signature Schemes: Attacks and Security, FAW-AAIM 2013, June 26-28, 2013, Dalian, China. LNCS,2013, Vol.7924, pp. 48-59. 

17.  Lvzhou Li, Daowen Qiu*, Semi-quantum secret sharing without entanglement, Asian Conference on Quantum Information Science 2011 (AQIS'11), Aug. 23-30, South Korea. 

18.  Xiangfu Zou, Daowen Qiu*, Attacks and Improvements of QSDC Schemes Based on CSS Codes, In The 7th International Conference on Intelligent Computing (ICIC2011), Aug. 11-14, 2011, Zhengzhou, China. LNBI, 2011, Vol.6215, pp. 239-246.

19.  Xiangfu Zou, Daowen Qiu*, Security analyses and improvement of arbitrated quantum signature with an untrusted arbitrator, 2012Asian Conference on Quantum Information Science (AQIS’12), Suzhou, China, August 23-26, 2012.

20.  H. Xing, Daowen Qiu*, Applications on Information Flow and Biomedical Treatment of FDES Based on Fuzzy Sequential Machines Theory, 2012 International Conference on Intelligent Computing (ICIC2012), July 25-28, 2012. Huangshan, China. LNCS，2012， vol.7389, 57-62.

21.  Shenggen Zheng, Daowen Qiu*, Lvzhou Li, State succinctness of two-way finite automata with quantum and classical states, the 3rd International Conference on Quantitative Logic and Soft Computing, May 12-15, 2012, Xi'an, China.

22.  H.Z. Situ, Daowen Qiu*, Paulo Mateus, Nikola Paunkovic, Secure N -dimensional Simultaneous Dense Coding and Applications, Asian Conference on Quantum Information Science 2011 (AQIS’11), Busan, Korea, August 23-30, 2011.

23.  Haozhen Situ, Daowen Qiu*, Paulo Mateus, Nikola Paunkovic, Simultaneous Dense Coding, AQIS2011, August 23-30, 2011, Busan, Korea.

24.  Fuchun Liu, Daowen Qiu*, Hai Lin, Bisimilarity control of nondeterministic discrete event systems, 30th Chinese Control Conference, July 22-24, 2011, Yantai, China. 

25.  Lvzhou Li, Daowen Qiu*, Revisiting the Power and Equivalence of One-Way Quantum Finite Automata, LNAI, Vol. 6215, pp. 1-8, 2010.   

26.  Daowen Qiu, State complexity of operations on two-way quantum finite automata, Asian Conference on Quantum Information Science 2009 (AQIS’09), pp. 122-123, Nanjing,China, August 26-29, 2009.

27.  L.Z. Li, Daowen Qiu*, Optimal discrimination among simultaneously diagonalizable mixed quantum states, Asian Conference on Quantum Information Science 2009 (AQIS’09), pp. 130-131, Nanjing, China, August 26-29, 2009.

28. Yinxiang Long, Daowen Qiu, Dongyang Long, An O(N) algorithm of Separability for two-partite arbitrarily dimensional pure states, Proceedings of the 2009 International Joint Conference on Computational Sciences and Optimization, pp. 570-573, Sanya,Hainan, China, April 24-26, 2009. 

29.  Daowen Qiu*, Some observations on two-way finite automata with quantum and classical states, LNCS, Vol. 5226, pp.1-8, 2008.

30.  J. Wen, Daowen Qiu, Preparation for quantum entangled states base on adiabatic quantum evolution, The 27th control conference of China, Kunming, 16-18, July, 2008.

31.  Daowen Qiu*, Simulations of Quantum Turing Machines by Quantum Multi-Counter Machines, Computability in Europe (CIE2008), Athens, Greece, June 15- 20, 2008.

32.  Fuchun Liu, Daowen Qiu*, Lyapunov stability of fuzzy discrete event systems, 3rd International Conference on Intelligent Computing, Aug. 21-24, 2007, Qingdao, China. LNCS, 2007, vol. 4682, pp.693-701.