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Xinjun Mao
XinJun Mao
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2020 – today
- 2024
- [j36]Zijian Gao
, Kele Xu, Huiping Zhuang
Less confidence, less forgetting: Learning with a humbler teacher in exemplar-free Class-Incremental learning. Neural Networks 179: 106513 (2024) - [j35]Zijian Gao
Dynamic Memory-Based Curiosity: A Bootstrap Approach for Exploration in Reinforcement Learning. IEEE Trans. Emerg. Top. Comput. Intell. 8(2): 1181-1193 (2024) - [c83]Zhiqun Xiao, Shuo Yang, Yuanzhou Xue, Shuo Wang, Xinjun Mao:
OCP: An Online Contingent Planning Method for Robot Tasks with Incomplete Knowledge. ICIC (LNAI 5) 2024: 39-50 - [c82]Zhang Zhang
CAREER: Context-Aware API Recognition with Data Augmentation for API Knowledge Extraction. ICPC 2024: 438-449 - 2023
- [c81]Yuxin Zhao, Xinjun Mao, Tanghaoran Zhang, Zhang Zhang:
MUSE: A Multi-Feature Semantic Fusion Method for ROS Node Search Based on Knowledge Graph. APSEC 2023: 269-278 - [c80]Yi Yang, Xinjun Mao:
Understanding Developers' Contribution Motivation in Stack Overflow: A Systematic Review. APSEC 2023: 359-368 - [c79]Zijian Gao, Kele Xu, Hongda Jia, Tianjiao Wan, Bo Ding, Dawei Feng, Xinjun Mao, Huaimin Wang:
Complementary Learning System Based Intrinsic Reward in Reinforcement Learning. ICASSP 2023: 1-5 - [c78]Yi Yang
An Integrated Approach to Predicting the Influence of Reputation Mechanisms on Q&A Communities. ICCBR 2023: 391-407 - [c77]Kang Yang
An Extensive Study of the Structure Features in Transformer-based Code Semantic Summarization. ICPC 2023: 89-100 - [c76]Yuxin Zhao, Xinjun Mao, Sun Bo, Tanghaoran Zhang, Shuo Yang:
An Effective Method for Constructing Knowledge Graph to Search Reusable ROS Nodes (S). SEKE 2023: 329-332 - [i5]Shuo Wang, Xinjun Mao, Shuo Yang, Menghan Wu, Zhang Zhang:
ROS package search for robot software development: a knowledge graph-based approach. CoRR abs/2312.14781 (2023) - [i4]Kang Yang, Xinjun Mao, Shangwen Wang, Tanghaoran Zhang, Bo Lin, Yanlin Wang, Yihao Qin, Zhang Zhang, Xiaoguang Mao:
Enhancing Code Intelligence Tasks with ChatGPT. CoRR abs/2312.15202 (2023) - 2022
- [j34]Shuo Yang
Towards a behavior tree-based robotic software architecture with adjoint observation schemes for robotic software development. Autom. Softw. Eng. 29(1): 31 (2022) - [j33]Zhixing Li, Yue Yu, Tao Wang, Gang Yin, Xinjun Mao, Huaimin Wang:
HAF: a hybrid annotation framework based on expert knowledge and learning technique. Sci. China Inf. Sci. 65(1) (2022) - [j32]Tanghaoran Zhang, Yue Yu, Xinjun Mao, Yao Lu, Zhixing Li, Huaimin Wang:
FENSE: A feature-based ensemble modeling approach to cross-project just-in-time defect prediction. Empir. Softw. Eng. 27(7): 162 (2022) - [j31]Zhang Zhang, Xinjun Mao, Chao Zhang, Yao Lu:
ForkXplorer: an approach of fork summary generation. Frontiers Comput. Sci. 16(3): 162202 (2022) - [j30]Xinjun Mao
A Concentrated Time-Frequency Method for Reservoir Detection Using Adaptive Synchrosqueezing Transform. IEEE Geosci. Remote. Sens. Lett. 19: 1-5 (2022) - [j29]Shuo Yang, Xinjun Mao, Yuanzhou Xue, Huaiyu Xiao, Shuo Wang:
Towards a Hybrid-ASP Planning Approach With Adjoint Observation for Incomplete Task-Relevant Information. IEEE Robotics Autom. Lett. 7(1): 494-501 (2022) - [j28]Yao Lu
Motivation Under Gamification: An Empirical Study of Developers' Motivations and Contributions in Stack Overflow. IEEE Trans. Software Eng. 48(12): 4947-4963 (2022) - [c75]Sun Bo, Xinjun Mao, Shuo Yang, Long Chen:
Towards An Efficient Searching Approach of ROS Message by Knowledge Graph. COMPSAC 2022: 934-943 - [c74]Guangjun Jiang, Xinjun Mao:
Exploring Problems and Solutions About Launch Files in ROS from Q&A Community. ICBASE 2022: 9-14 - [c73]Yi Huang, Xinjun Mao, Zhang Zhang:
The Maintenance of Top Frameworks and Libraries Hosted on GitHub: An Empirical Study. SEKE 2022: 449-452 - [c72]Menghan Wu, Yang Zhang, Jiakun Liu, Shangwen Wang, Zhang Zhang, Xin Xia, Xinjun Mao:
On the Way to Microservices: Exploring Problems and Solutions from Online Q&A Community. SANER 2022: 432-443 - [c71]Yinyuan Zhang, Yang Zhang, Xinjun Mao, Yiwen Wu, Bo Lin, Shangwen Wang:
Recommending Base Image for Docker Containers based on Deep Configuration Comprehension. SANER 2022: 449-453 - [i3]Zijian Gao, Kele Xu, Yiying Li, Yuanzhao Zhai, Dawei Feng, Bo Ding, XinJun Mao, Huaimin Wang:
Dynamic Memory-based Curiosity: A Bootstrap Approach for Exploration. CoRR abs/2208.11349 (2022) - [i2]Zijian Gao, Kele Xu, Hengxing Cai, Yuanzhao Zhai, Dawei Feng, Bo Ding, XinJun Mao, Huaimin Wang:
Self-Supervised Exploration via Temporal Inconsistency in Reinforcement Learning. CoRR abs/2208.11361 (2022) - 2021
- [j27]Zhixing Li, Yue Yu, Tao Wang, Gang Yin, Xinjun Mao, Huaimin Wang:
Detecting Duplicate Contributions in Pull-Based Model Combining Textual and Change Similarities. J. Comput. Sci. Technol. 36(1): 191-206 (2021) - [j26]Shuo Yang, Xinjun Mao, Shuo Wang, Yantao Bai:
Extending Behavior Trees for Representing and Planning Robot Adjoint Actions in Partially Observable Environments. J. Intell. Robotic Syst. 102(2): 36 (2021) - [j25]Shuo Yang
A Hybrid Planning Approach for Accompanying Information-gathering in Plan Execution Monitoring. J. Intell. Robotic Syst. 103(1): 19 (2021) - [c70]Shuo Yang, Xinjun Mao, Shuo Wang, Huaiyu Xiao, Yuanzhou Xue:
Towards Adjoint Sensing and Acting Schemes and Interleaving Task Planning for Robust Robot Plan. ICRA 2021: 13791-13797 - [c69]Long Chen, Xinjun Mao, Yinyuan Zhang, Shuo Yang, Shuo Wang:
An Efficient ROS Package Searching Approach Powered By Knowledge Graph. SEKE 2021: 411-416 - 2020
- [j24]Yao Lu, Xinjun Mao, Tao Wang, Gang Yin, Zude Li:
Improving students' programming quality with the continuous inspection process: a social coding perspective. Frontiers Comput. Sci. 14(5): 145205 (2020) - [j23]Zhang Zhang
Automatic Voter Recommendation Method for Closing Questions in Stack Overflow. Int. J. Softw. Eng. Knowl. Eng. 30(11&12): 1707-1733 (2020) - [j22]Shaobo Zhang
A trajectory privacy-preserving scheme based on a dual-K mechanism for continuous location-based services. Inf. Sci. 527: 406-419 (2020) - [j21]Chao Zhang, Xinjun Mao, Yao Lu:
基于特征提取的开源社区Fork摘要自动生成方法 (Approach of Automatic Fork Summary Generation in Open Source Community Based on Feature Extraction). 计算机科学 47(3): 25-33 (2020) - [j20]Qiuzhen Wang, Xinjun Mao:
Dynamic Task Allocation Method of Swarm Robots Based on Optimal Mass Transport Theory. Symmetry 12(10): 1682 (2020) - [c68]Xinjun Mao, Hao Huang, Shuo Wang:
Software Engineering for Autonomous Robot: Challenges, Progresses and Opportunities. APSEC 2020: 100-108 - [c67]Zhang Zhang
An Empirical Study on the Influence of Social Interactions for the Acceptance of Answers in Stack Overflow. APSEC 2020: 425-434 - [c66]Qiuzhen Wang, Jiawen Huang, Xinjun Mao:
A Fast Self-Organizing Pattern Formation Method for Swarm Robots in Dynamic Multi-Region Environments. CACRE 2020: 124-129 - [c65]Xinjun Mao, Yao Lu, Yi Yang:
Exploiting Crowd-based Learning Method in Software Engineering Course. ICCSE 2020: 39-44 - [c64]Hao Huang, Yao Lu, Xinjun Mao:
Gathering GitHub OSS Requirements from Q&A Community: an Empirical Study. ICECCS 2020: 145-155 - [c63]Yao Lu, Xinjun Mao, Minghui Zhou, Yang Zhang, Tao Wang, Zude Li:
Haste Makes Waste: An Empirical Study of Fast Answers in Stack Overflow. ICSME 2020: 23-34 - [c62]Yinyuan Zhang, Yang Zhang, Yiwen Wu, Yao Lu, Tao Wang, Xinjun Mao:
Exploring the Dependency Network of Docker Containers: Structure, Diversity, and Relationship. Internetware 2020: 199-208 - [c61]Yi Yang, Xinjun Mao, Zixi Xu, Yao Lu:
Exploring CQA User Contributions and Their Influence on Answer Distribution. SEKE 2020: 457-462 - [c60]Zhang Zhang, Xinjun Mao, Yao Lu, Jinyu Lu:
Who Should Close the Questions: Recommending Voters for Closing Questions Based on Tags. SEKE 2020: 507-512 - [c59]Shuo Yang, Xinjun Mao, Wanwei Liu:
Towards an Extended POMDP Planning Approach with Adjoint Action Model for Robotic Task. SMC 2020: 1412-1419 - [i1]Hao Huang, Yao Lu, Xinjun Mao:
Gathering GitHub OSS Requirements from Q&A Community: an Empirical Study. CoRR abs/2008.02485 (2020)
2010 – 2019
- 2019
- [j19]Yao Lu
Studying in the 'Bazaar': An Exploratory Study of Crowdsourced Learning in GitHub. IEEE Access 7: 58930-58944 (2019) - [j18]Jiangtao Xue
History-Driven Fix for Code Quality Issues. IEEE Access 7: 111637-111648 (2019) - [j17]Yuhong Huang
Toward a Clustering-Based Approach for Self-Adjusting Impact Factors in Robotic Control Model. IEEE Access 7: 127987-127998 (2019) - [j16]Shuai Zhang
A field-based service management and discovery method in multiple clouds context. Frontiers Comput. Sci. 13(5): 976-995 (2019) - 2018
- [j15]Zhe Liu, Xinjun Mao, Shuo Yang:
AutoRobot: A Multi-Agent Software Framework for Autonomous Robots. IEICE Trans. Inf. Syst. 101-D(7): 1880-1893 (2018) - [j14]Jiwei Liu, Xinjun Mao:
Towards Dynamic Evolution of Runtime Variability Based on Computational Reflection. Int. J. Softw. Eng. Knowl. Eng. 28(3): 259-286 (2018) - [j13]Yao Lu
Internal quality assurance for external contributions in GitHub: An empirical investigation. J. Softw. Evol. Process. 30(4) (2018) - [c58]Xinjun Mao, Yao Lu, Liangze Yin, Tao Wang, Gang Yin:
Model and Practice of Crowd-Based Education. APWeb/WAIM Workshops 2018: 293-305 - [c57]Yao Lu, Xinjun Mao, Tao Wang, Gang Yin, Zude Li, Huaimin Wang:
Continuous inspection in the classroom: improving students' programming quality with social coding methods. ICSE (Companion Volume) 2018: 141-142 - [c56]Zhe Liu, Xinjun Mao, Shuo Yang:
Accompanying Observation Modes and Software Architecture for Autonomous Robot Software. SEKE 2018: 209-208 - [c55]Peini Liu
Towards Reference Architecture for a Multi-layer Controlled Self-adaptive Microservice System. SEKE 2018: 236-235 - [c54]Shuai Zhang
A Self-Adaptation Framework of Microservice Systems (S). SEKE 2018: 282-281 - [c53]Peini Liu
Generalized Nash Equilibrium Model of the Service Provisioning Problem in Multi-Cloud Competitions. SmartWorld/SCALCOM/UIC/ATC/CBDCom/IOP/SCI 2018: 1485-1490 - 2017
- [j12]Xinjun Mao, QiuZhen Wang, Sen Yang:
A survey of agent-oriented programming from software engineering perspective. Web Intell. 15(2): 143-163 (2017) - [c52]Shuo Yang, Xinjun Mao, Zhe Liu, Sen Yang, Jiangtao Xue, Zixi Xu:
The Accompanying Behavior Model and Implementation Architecture of Autonomous Robot Software. APSEC 2017: 209-218 - [c51]Zhe Liu, Xinjun Mao, Shuo Yang:
A Dual-Loop Control Model and Software Framework for Autonomous Robot Software. APSEC 2017: 229-238 - [c50]Yao Lu, Xinjun Mao, Gang Yin, Tao Wang, Yu Bai:
Using Pull-Based Collaborative Development Model in Software Engineering Courses: A Case Study. DASFAA Workshops 2017: 399-410 - [c49]Yu Bai, Liqian Chen, Gang Yin, Xinjun Mao, Ye Deng, Tao Wang, Yao Lu, Huaimin Wang:
Quantitative Analysis of Learning Data in a Programming Course. DASFAA Workshops 2017: 436-441 - [c48]Yin Chen, Xinjun Mao, Fu Hou:
Deadlock Prevention in Rendezvous Generation for On-demand Inter-robot Resource Delivery. ICAART (2) 2017: 670-675 - 2016
- [j11]Fu Hou, XinJun Mao:
Cross-clouds services autonomic management approach based on self-organizing multi-agent technology. Concurr. Comput. Pract. Exp. 28(11): 3213-3237 (2016) - [j10]Binbin Ge, Xinjun Mao:
基于行为检测的机器人安全保护方法 (Method for Ensuring Safety of Robot Based on Behavior Detection). 计算机科学 43(8): 183-189 (2016) - [j9]Mingsheng Tang
A Lightweight Social Computing Approach to Emergency Management Policy Selection. IEEE Trans. Syst. Man Cybern. Syst. 46(8): 1075-1087 (2016) - [c47]Yao Lu, Xinjun Mao, Zude Li, Yang Zhang, Tao Wang, Gang Yin:
Does the Role Matter? An Investigation of the Code Quality of Casual Contributors in GitHub. APSEC 2016: 49-56 - [c46]Fu Hou, XinJun Mao:
A Field-Based Model for Representing Dynamic and Evolving Features of Cloud Services. ICPADS 2016: 643-652 - [c45]Sen Yang, Xinjun Mao, Yin Chen, Shuo Yang:
A Multi-agent Organization Approach for Developing Social-Technical Software of Autonomous Robots. ICYCSEE (1) 2016: 24-38 - [c44]Yin Chen, Xinjun Mao, Fu Hou, QiuZhen Wang, Shuo Yang:
Combining re-allocating and re-scheduling for dynamic multi-robot task allocation. SMC 2016: 395-400 - 2015
- [j8]Changhai Tian, Shuo Yang, Yin Chen, Xinjun Mao:
RPL: 一种基于反应式Agent的机器人编程语言 (RPL: A Robot Programming Language Based on Reactive Agent). 计算机科学 42(3): 13-18 (2015) - [c43]Jiwei Liu, Xinjun Mao:
Towards Realisation of Evolvable Runtime Variability in Internet-Based Service Systems via Dynamical Software Update. Internetware 2015: 229-238 - [c42]Shuo Yang, Xinjun Mao, Binbin Ge, Sen Yang:
The Roadmap and Challenges of Robot Programming Languages. SMC 2015: 328-333 - [c41]Mingsheng Tang
An Agent-Based Artificial Society Approach to Analyzing Social Propagation. SMC 2015: 777-782 - [c40]Xinjun Mao, QiuZhen Wang:
A Survey of Agent-Oriented Programming: From Program Models to Programming Languages and Environments. WI-IAT (2) 2015: 159-165 - 2014
- [j7]Mingsheng Tang
Information Entropy-Based Metrics for Measuring Emergences in Artificial Societies. Entropy 16(8): 4583-4602 (2014) - [j6]Cuiyun Hu, XinJun Mao, Mengjun Li, Zhi Zhu:
Organization-based agent-oriented programming: model, mechanisms, and language. Frontiers Comput. Sci. 8(1): 33-51 (2014) - [j5]XinJun Mao, Menggao Dong, Haibin Zhu
A Two-Layer Approach to Developing Self-Adaptive Multi-Agent Systems in Open Environment. Int. J. Agent Technol. Syst. 6(1): 65-85 (2014) - [j4]Jiwei Liu, Xinjun Mao:
Towards Software Architecture and Mechanisms for Improving Runtime Variability of Internetware System. Int. J. Softw. Informatics 8(1): 67-94 (2014) - [j3]XinJun Mao, Menggao Dong, Lu Liu, Huaimin Wang:
An Integrated Approach to Developing Self-Adaptive Software. J. Inf. Sci. Eng. 30(4): 1071-1085 (2014) - [c39]Fu Hou, XinJun Mao, Junwen Yin, Wei Wu:
An Agent-Based Autonomous Management Approach to Dynamic Services. Intelligent Information Processing 2014: 122-132 - [c38]Jiwei Liu, Xinjun Mao:
Towards realisation of evolvable runtime variability in internet-based service systems via dynamical software update. Internetware 2014: 97-106 - [c37]Yin Chen, XinJun Mao:
Change and Role as First-Class Abstractions for Realising Dynamic Evolution. SEKE 2014: 443-446 - [c36]Mingsheng Tang
Policy evaluation and analysis of choosing whom to tweet information on social media. SMC 2014: 45-50 - [c35]Fu Hou, XinJun Mao, Wei Wu, Lu Liu
A Cloud-Oriented Services Self-Management Approach Based on Multi-agent System Technique. UCC 2014: 261-268 - 2013
- [j2]Cuiyun Hu, XinJun Mao, Yin Chen:
Programming Dynamic and Open Multi-Agent Systems with Organization Metaphor. J. Softw. 8(1): 151-159 (2013) - [c34]Yin Chen, XinJun Mao, Cuiyun Hu:
Execution Mechanisms of Oragent - An Organisation-Based Programming Language. IAT 2013: 274-279 - [c33]Jiwei Liu, Xinjun Mao:
Extending autonomic architecture for constructing internetware system. Internetware 2013: 5:1-5:10 - 2012
- [c32]Cuiyun Hu, XinJun Mao, Yin Chen, Huiping Zhou:
OrgMAP: an organization-based approach for multi-agent programming. AAMAS 2012: 1437-1438 - [c31]Yi Guo, XinJun Mao, Cuiyun Hu, Junwen Yin, Xinzhong Zhu:
Developing Self-Organizing Systems by Policy-Based Self-Organizing Multi-Agent Systems. AMT 2012: 502-512 - [c30]Mingsheng Tang
ASML: Artificial Society Modelling Language for ACP Approach Based on Organization Metaphors. CGC 2012: 410-417 - [c29]Yin Chan, XinJun Mao, Cuiyun Hu, Huiping Zhou, Jianmin Zhao:
Oragentburg: A Platform Supporting Organisation-Based Programming. IAT 2012: 366-373 - [c28]Yi Guo, XinJun Mao, Fu Hou, Cuiyun Hu, Jianming Zhao:
The BDIP Software Architecture and Running Mechanism for Self-Organizing MAS. Intelligent Information Processing 2012: 77-86 - [c27]Mingsheng Tang
An approach to modelling city-scale artificial society based-on organization metaphor. SMC 2012: 953-958 - 2011
- [c26]Cuiyun Hu, XinJun Mao, Yuekun Sun, Huiping Zhou:
Programming Large-Scale Multi-Agent Systems Based on Organization Metaphor. AMT 2011: 241-250 - [c25]Cuiyun Hu, XinJun Mao, Huiping Zhou:
Programming Dynamics of Multi-Agent Systems. PRIMA 2011: 287-298 - [c24]Yi Guo, XinJun Mao, Cuiyun Hu, Junwen Yin, Jiang Cao:
A Survey of Software Engineering for Self-Organization Systems. SEKE 2011: 539-542 - [c23]Jiang Cao, XinJun Mao, Huining Yan, Yushi Huang, Huaimin Wang, Xicheng Lu:
Capability as Requirement Metaphor. TrustCom 2011: 1543-1549 - [c22]Yi Guo, XinJun Mao, Cuiyun Hu:
Design Pattern for Self-Organization Multi-agent Systems Based on Policy. TrustCom 2011: 1572-1577
2000 – 2009
- 2009
- [c21]Cuiyun Hu, XinJun Mao, Hong Ning:
Integrating Model Transformation in Agent-Oriented Software Engineering. IAT 2009: 62-65 - [c20]Menggao Dong, XinJun Mao, Junwen Yin, Zhiming Chang, Zhichang Qi:
SADE: A Development Environment for Adaptive Multi-Agent Systems. PRIMA 2009: 516-524 - 2008
- [j1]XinJun Mao, Lijun Shan, Hong Zhu, Ji Wang:
An adaptive casteship mechanism for developing multi-agent systems. Int. J. Comput. Appl. Technol. 31(1/2): 17-34 (2008) - [c19]Zhiming Chang, XinJun Mao, Zhichang Qi:
Formal Analysis of Architectural Policies of Self-Adaptive Software by Bigraph. ICYCS 2008: 118-123 - [c18]Zhiming Chang, XinJun Mao, Zhichang Qi:
Towards a Formal Model for Reconfigurable Software Architectures by Bigraphs. WICSA 2008: 331-334 - 2007
- [c17]XinJun Mao, Jianming Zhao, Ji Wang:
Engineering Adaptive Multi-Agent Systems with ODAM Methodology. PRIMA 2007: 380-385 - [c16]XinJun Mao, Huocheng Wu, Jie Li:
Integrating Agent Technology and SIP Technology to Develop Telecommunication Applications with JadexT. PRIMA 2007: 386-391 - [c15]Zhiming Chang, XinJun Mao, Zhichang Qi:
An Approach based on Bigraphical Reactive Systems to Check Architectural Instance Conforming to its Style. TASE 2007: 57-66 - 2006
- [c14]Jianming Zhao, XinJun Mao, Ji Wang:
Developing Multi-Agent Systems with Dynamic Binding Mechanism. IAT 2006: 52-58 - [c13]XinJun Mao, Zhiming Chang, Lijun Shan, Hong Zhu, Ji Wang:
The Dynamic Casteship Mechanism for Modeling and Designing Adaptive Agents. SEKE 2006: 639-644 - 2005
- [c12]XinJun Mao, Ji Wang, Jiajia Chen:
Modeling Organization Structure of Multi-Agent System. IAT 2005: 116-119 - [c11]Jianxing Li, XinJun Mao, Yao Shu:
An OO-based Design Model of Software Agent. PDCAT 2005: 434-440 - 2004
- [c10]XinJun Mao, Eric S. K. Yu:
Organizational and Social Concepts in Agent Oriented Software Engineering. AOSE 2004: 1-15 - [c9]Hong Zhu, Bin Zhou, XinJun Mao, Lijun Shan, David A. Duce:
Agent-Oriented Formal Specification of Web Services. GCC Workshops 2004: 633-641 - [c8]XinJun Mao, Ji Wang, Eric S. K. Yu:
A Framework to Specify and Evaluate Coordination in MAS with Logic. IAT 2004: 325-328 - [c7]XinJun Mao, Jiajia Chen:
Model Organization Constraints in Multi-Agent System. Intelligent Information Processing 2004: 1-10 - [c6]XinJun Mao, Gang Wu, Huaimin Wang:
Cooperation models for service oriented multi-agent system. SAC 2004: 510-511 - 2003
- [c5]Qi Yan, XinJun Mao, Hong Zhu, Zhi-Chang Qi:
Modelling Multi-agent Systems with Soft Genes, Roles, and Agents. AOSE 2003: 231-245 - [c4]Yan Qi, Xin Wang, Wei Yan, XinJun Mao, Zhi-Chang Qi:
A Formal Specification and Method for MAS as a Distributed System. APPT 2003: 189-193 - [c3]Xin Wang, Qi Yan, XinJun Mao, Zhi-Chang Qi:
Generating Test Oracle for Role Binding in Multi-Agent Systems. APSEC 2003: 108- - [c2]Qi Yan, XinJun Mao, Lijun Shan, Zhi-Chang Qi, Hong Zhu:
Soft Gene, Role, Agent: MABS Learns from Sociology. IAT 2003: 450-453 - 2002
- [c1]Gang Wu, Huaimin Wang, XinJun Mao, Quanyuan Wu:
Growing Distributed System. PDPTA 2002: 399-403
Coauthor Index
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