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Teacher Details
  • Personal Information
    Mi Zhenqiang

    Mi Zhenqiang

    Department:
    |Department of Communications Engineering|
    Professional Title:
    Associate Professor  
    Position:
    Office:
    1223 of MEE Building
    Tel:
    E-Mail:
    mizq@ustb.edu.cn
    Undergraduate Courses:
    "Signal and Linear System Analysis" (Bilingual) (64 hours) Fall 2011 (third year of undergraduate) "Communication Network Foundation"
    Graduate Courses:
    "Broadband Wireless Communication" (full English) (32 hours) 2012-2015 spring (first year of master's degree students)
    Research Directions:
    "Broadband Wireless Communication" (full English) (32 hours) 2012-2015 spring (first year of master's degree students)
    Academic And Social Part-Time:
    IEEE member, ACM member, CCF member National Natural Science Foundation of China Correspondence Expert Expert of Beijing Municipal Education Commission Informationization Expert Database
  • Resume

    Educational experience
    2006/09-2011/06, PhD, Department of Communication Engineering, School of Information Engineering, University of Science and Technology Beijing;
    2002/09-2006/06, University of Science and Technology Beijing, Department of Automation, School of Information Engineering, Bachelor.

    Research work experience
    2015/07-present, Associate Professor, School of Computer and Communication Engineering, University of Science and Technology Beijing;
    2011/07-2015/06, University of Science and Technology Beijing, School of Computer and Communication Engineering, Lecturer;
    2011/07-2013/08, University of Science and Technology Beijing, School of Automation, postdoctoral researcher;
    2008/12-2010/12, Ryerson University, Department of Aerospace Engineering, Visiting Scholar
    2006-2011, Research Assistant, School of Information Engineering, University of Science and Technology Beijing


  • Representative Papers

    [1] Zhenqiang Mi*, Yang Yang and Jame. Y. Yang, “Restoring Connectivity of Mobile Robotic Sensor Networks while Avoiding Obstacles”, IEEE Sensors Journal, Vol. 15. No. 8, Aug. 2015. (SCI/EI, Impact Factor=1.852)
    [2] Zhenqiang Mi*, Yang Yang, Ruochen Yu and Hao Ding, “Distributed Connectivity Restoration for Mobile Sensor Systems with Limited Information”, IEEE Sensors Journal, vol. 14, no. 11, Nov. 2014, pp. 3838-3850. (SCI/EI, Impact Factor=1.852)
    [3] Zhenqiang Mi*, Rong-Shue Hsiao and Yang Yang, “Graph-theoretic based Connectivity Restoration Algorithms for Mobile Sensor Networks”, International Journal of Distributed Sensor Networks, accepted, 2015. (SCI/EI, Impact Factor=0.923)
    [4] Rong-Shue Hsiao, Zhenqiang Mi, and Bo-Ru Yang, “Body Turning Recording and Notification System for the Care of Bed Bound Patients”, Technology and Health Care, IOS Press, Accepted, 2015. (SCI/EI, Impact Factor=0.636)
    [5] Zhenqiang Mi*, Ruochen Yu, Xiangtian Yi and Yang Yang “Distributed task allocation of mobile robotic sensor networks with guaranteed connectivity”, KSII Transactions on Internet and Information Systems, vol. 8, no. 12, 2014. (SCI/EI, Impact Factor=0.345)
    [6] Dandan Wang, Yang Yang and Zhenqiang Mi*, “A genetic-based approach to web service composition in geo-distributed cloud environment”, Computers and Electrical Engineering, Elsevier, Vol. 43, Apr. 2015. (SCI/EI, Impact Factor=0.992)
    [7] Huan Ma, Yang Yang and Zhenqiang Mi*, “A Distributed Storage Framework of FlowTable in Software Defined Network”, Computers and Electrical Engineering, Elsevier, Vol. 43, Apr. 2015. (SCI/EI, Impact Factor=0.992)
    [8] Ning Wang, Yang Yang, Liyuan Feng and Zhenqiang Mi*, “SVM-based incremental learning algorithm for large-scale data stream in cloud computing”, KSII Transactions on Internet and Information Systems, vol. 8, no. 11, 2014. (SCI/EI, Impact Factor=0.345)
    [9] Dandan Wang, Yang Yang and Zhenqiang Mi, “QoS-based and network-aware web service composition across cloud datacenters”, KSII Transactions on Internet and Information Systems, vol. 9, no. 3, 2014. (SCI/EI, Impact Factor=0.345)
    [10] Zhenqiang Mi, Yang Yang, and Jiajia Sun. “Holistic Connectivity Controller for Multirobot Dispersion”, Mathematical Problems in Engineering, vol. 2013, 2013. (SCI/EI, Impact Factor=1.383)
    [11] Zhenqiang Mi*, Yang Yang and Hao Ding. “Self-Organized Connectivity Control and Optimization Subjected to Dispersion of Mobile Ad Hoc Sensor Networks”. International Journal of Distributed Sensor Networks, vol. 2012, 2012. (SCI/EI, Impact Factor=0.923)
    [12] Zhenqiang Mi*, Miao Zhang and Zenggang Xiong. “A VCG mechanism based storage allocation strategy in cloud computing environment”. Journal of Communication, vol. 9, no. 12, 2014. (EI)
    [13] Ning Wang, Yang Yang, Yu Chen, Zhenqiang Mi*, Kun Meng and Qing Ji, “A prediction mechanism of file access popularity and optimal strategy of replicas deployment in cloud computing,” High Technology Letter, Vol.21, No. 1, Mar. 2015, pp 69-74. (EI)
    [14] Y. Zhao, Yang Yang and Zhenqiang Mi, “Movement-assisted Service Composition Optimization in Dynamic Networks,” High Technology Letter, Vol.2, 2012, pp 69-74. (EI)
    [15] Zhenqiang Mi*, Lei Wang and Hongxia Wang, “An information classification framework to support effective emergency data dissemination in VANETs with the aid of RSUs”, International Journal of Advanced Computing Technology, Vol. 4, No. 20, pp. 572 ~ 581, 2012. (EI)
    [16] Hao Ding, Yang Yang, Tao Zhang and Zhenqiang Mi*, “Mobility-based service optimization algorithm in cloud computing environment,” International Journal of Digital Content Technology and its Applications, Vol. 6, No. 23, 2012. (EI)
    [17] Lei Wang, Yang Yang, X. B.Wang, I. K. Toure and Zhenqiang Mi, “An adaptive routing protocol based on relative positions in VANETs,” High Technology Letter, Vol.18, 2012, pp 13-19. (EI)
    [18] Zhenqiang Mi, Yang Yang, Guangjun Liu and Jianwei An, “Connectivity of Sparse Vehicular Ad hoc Networks with Channel Randomness,” High Technology Letter, vol.4, 2010, pp 20-25. (EI)

    International Academic Conference Papers (EI search):
    [1]Zhenqiang Mi and Jame. Y. Yang, “Obstacle-avoidance Connectivity Restoration for Mobile Sensor Systems with local information”, 2015 IEEE International Conferences on Communication (ICC’15), London, UK, Jun. 2015
    [2]Zhenqiang Mi, Yang Yang and Jame. Y. Yang, “Graph-theoretic Critical Sensor Determination and Partition Elimination in Mobile Sensor Networks”, 2015 IEEE International Conferences on Communication (ICC’15), London, UK, Jun. 2015
    [3]Yu Zhao, Khalil Mansouri, Yang Yang and Zhenqiang Mi, “Rating Prediction using Category Weight Factorization Machine in Bigdata Environment”, 2015 IEEE International Conferences on Communication (ICC’15), London, UK, Jun. 2015
    [4]Zhenqiang Mi, Yang Yang, Huan Ma and Dandan Wang, “Connectivity preserving task allocation in mobile robotic sensor network”, 2014 IEEE International Conferences on Communication (ICC'14), Sydney, Australia, Jun. 2014, pp. 136 -141
    [5]Ning Wang, Yang Yang, Zhenqiang Mi and Qing Ji, “A Fault-Tolerant Strategy of Redeploying the Lost Replicas in Cloud”, 2014 IEEE 8th International Symposium on Service Oriented System Engineering (SOSE'14), Oxford, UK, Apr. 2014, pp. 370-375
    [6]Zhenqiang Mi, Yang Yang and Tao Zhang, "Physical Link Optimization in Programmable Mobile Ad Hoc Networks with the Aids of Agent Mobility," 4th International Conference on Wireless Communications and Signal Processing (WCSP'12), Huangshan, China, Oct . 2012
    [7] Zhenqiang Mi, Yang Yang and Hao Ding, "Fault-tolerant Dispersion of Mobile Agents Based on Mobile Ad Hoc Networks," 4th International Conference on Wireless Communications and Signal Processing (WCSP’12), Huangshan, China, Oct. 2012
    [8] Zhenqiang Mi and Yang Yang, “Connectivity restorability of mobile Ad hoc networks based on K-hop neighbor information,” Proc. 2011 IEEE International Conference on Communication (ICC'11), Kyoto, Japan, pp. 1-5, June 2011
    [9] Zhenqiang Mi and Yang Yang, “Topology control and coverage enhancement of dynamic networks based on the controllable movement of mobile agents,” Proc. 2011 IEEE International Conference on Communication (ICC'11), Kyoto, Japan, pp. 1- 5, June 2011
    [10] Zhenqiang Mi, Yang Yang and Guangjun Liu, "Coverage enhancement of mobile multi-robot networks while preserving global connectivity," Proc. The 2011 IEEE International Conference on Robotics and Automation (ICRA'11), Shanghai, China, pp. 5381-5386, May 2011
    [11]Zhenqiang Mi, Yang Yang and Guangjun Liu, "HERO: A hybrid connectivity restoration framework for mobile multi-agent networks," Proc. The 2011 IEEE International Conference on Robotics and Automation (ICRA'11), Shanghai, China, pp . 1702-1707, May 2011
    [12]IK Toure, Yang. Yang and Zhenqiang Mi, “Low redundant hop-counts for service composition optimization in dynamic network,” 2011 IEEE International Conference on Cloud and Service Computing (CSC'11), December 12-14, 2011, Hong Kong, China
    [13]Zhenqiang Mi, Yang Yang and Guangjun Liu, “Connectivity control of mobile multi-robot networks,” Proc. 2010 IEEE/ASME International conference on advanced intelligent mechatronics (AIM'10), Montreal, Canada, pp 123-128, Jul. 2010
    [14]Yang Yang, Zhenqiang Mi, James. Y. Yang and Guangjun Liu, “A model based connectivity improvement strategy for vehicular Ad hoc networks,” Proc. of 76th IEEE Vehicular Technology Conference (VTC'10-Fall), Ottawa, Canada, pp. 1-5, Sep. 2010.

  • Research Performance

    As the project leader
    1. National Natural Science Foundation of China Youth Project: "Research on the Task Distribution Mechanism of Heterogeneous Mobile Multi-robot Collaborative Control System in MANETs Network Environment" (Grant No. 61202432). Source of funding: National Natural Science Foundation of China, from 2013.1-2015.12.
    2. China Postdoctoral Research Fund Project: "Task Assignment Architecture for Heterogeneous Multi-robot System under Network Connectivity Constraints" (Grant No. 2011M500243). Source of funding: China Postdoctoral Management Committee, starting and ending years: 2012.1-2013.12.
    3. Fundamental scientific research business fees for teachers of central universities: "Research on the Core Algorithms of Connectivity Control and Task Assignment of MRS Networks" (Grant No. FRF-TP-12-082A). Source of funding: Ministry of Education, starting and ending year: 2012.1-2013.12.
    4. Basic scientific research business fees for teachers of central universities: "Control and Repair of Connectivity of Multi-robot Networks for Unreliable Connections" (Grant No. FRF-TP-14-045A2). Source of funding: Ministry of Education, starting and ending year: October 2014- October 2015.
    5. Beijing University of Science and Technology-Taipei University of Science and Technology Joint Research Project: "Research on Optimal Deployment and Routing Protocol of WSAN Nodes for Smart Elderly Care" Source of funding: University of Science and Technology Beijing, starting and ending year: 2015.1-1015.12.
    6. The project commissioned by the Beijing Municipal Education Commission: "High-quality resource upgrade and demonstration project wireless network construction and resource scheduling related technical specifications development and consulting project." Funding source: Beijing Education Network and Information Center, starting and ending year: 2013.5-2014. 5.
    7. The project commissioned by the Beijing Municipal Education Commission: "The Development Project of the Standard Specification System for the Digital Educational Resource Management and Sharing Exchange Platform". Source of funding: Beijing Education Network and Information Center, starting and ending years: 2014.1-2014.12.

    As the main participant of the project:
    1. General Project of the National Natural Science Foundation of China: "Research on the Service Resource Allocation and Scheduling Mechanism to the Data Center under the Interconnected Cloud Environment" (Grant No. 61472033) Source of funding: National Natural Science Foundation of China, from 2015.1-2018.12.
    2. General Project of the National Natural Science Foundation of China: "Research on Optimization of Cross-cloud Collaborative Services Based on Utility Models in Interconnected Cloud Environment" (Grant No. 61370132). Source of funding: National Natural Science Foundation of China, starting and ending years 2014.1-2017.12.
    3. General Project of the National Natural Science Foundation of China: "Research on the Mechanism of Multi-granularity Services and Service Combination in a Programmable Network Environment" (Grant No. 61272508). Source of funding: National Natural Science Foundation of China, from 2013.1-2016.12.
    4. General project of the National Natural Science Foundation of China: "Research on Service Composition, Reconstruction and Optimization in Dynamic Network Environment" (Grant No.61070182). Source of funding: National Natural Science Foundation of China, starting and ending years 2011.1-2013.12.
    5. National Natural Science Foundation of China: "Research on Key Technologies of Grid Service Workflow" (No.60673160). Source of funding: National Natural Science Foundation of China, from 2008.1-2010.12.
    6. The National Natural Science Foundation of China: "Research on the Basic Theory of Service Management in the Grid Environment" (No.60873192).
    7. National High-Tech Research and Development Program (863) Project: "Research on Key Technologies of In-vehicle Communication Based on Ad hoc Networks" (No. 2007AA01Z234). Source of funding: Ministry of Science and Technology, starting and ending year 2008.1-2010.12.
    8. Project commissioned by Beijing Municipal Education Commission: "Research and Experiment on Large-scale Education and Teaching Application Mode". Source of funding: Beijing Education Network and Information Center, starting and ending years: November 2014- November 2015.


  • Get Rewards/Patents

    Authorized patent:
    [1] An Jianwei; Mi Zhenqiang; Yang Yang; Zhou Xianwei; Yang Yuliang. "A Clustering Method for Vehicle Ad hoc Networks Based on Signal Strength" Patent No.: ZL 200710179578.8, date of authorization: December 30, 2009.
    [2] Yang Yang; Zhou Xianwei; An Jianwei; Mi Zhenqiang; Yang Yuliang. "A routing selection method for vehicle-mounted mobile ad hoc networks based on direction information" Patent number: ZL200810223086.9, date of authorization: September 25, 2010 .

    Awards and honorary titles:
    In April 2015, the second prize of Beijing University of Science and Technology Young Teachers Teaching Basic Skills Competition
    In August 2014, the first prize of the National University Biological Networking Competition, the instructor
    December 2013 Inspection-free classroom for undergraduate teaching at University of Science and Technology Beijing ("Signal and System", "Communication Network Foundation")
    In October 2013, China University Student Innovation and Entrepreneurship Competition National First Prize Instructor
    In August 2013, the National Second Prize of the University of China Biological Networking Competition, instructor
    May 2013 First Prize of the Young Teacher Teaching Basic Skills Competition of School of Computer and Communication Engineering
    December 2012 Excellent Postdoctoral Fellow of University of Science and Technology Beijing