△王禄生
发布时间:2019-09-02 浏览:1333
个人信息

姓      名王禄生性      别
出生年月
最终学位
博士
毕业学校法国巴黎高等电信学院(Telecom ParisTech)

从事专业无线通信网络职务硕士生导师
所属院系通信工程系

所在部门通信与信息研究所职称教授
联系方式
办公电话
15255188143
E-mailwanglusheng@hfut.edu.cn
通讯地址合肥工业大学翡翠湖校区云顶yd2332(科技楼B1910)
简历

2012年9月,合肥工业大学,研究员,黄山青年学者

2011年1月-2012年6月,EURECOM移动通信系,博士后

2010年2-12月,里昂应用科学学院(INSA Lyon)电信与业务创新研究中心(CITI),博士后

2010年1月,巴黎高科学院集团中的Telecom ParisTech(Ecole Nationale Superieure des Telecommunications de Paris),计算机与网络,博士

2004年7月,北京邮电大学,通信工程,学士

研究方向

研究领域为无线移动通信网络,目前主要研究方向是:后5G致密网络、车联网与自动驾驶、智能算法与预测等,在该领域发表SCI期刊近30篇,其中包括IEEE  Commun. Surveys Tuts.、IEEE Trans. Wireless Commun.、IEEE Trans. Veh.  Technol.、China Communications等高水平国际期刊,另有国际会议论文与国内期刊论文共计30余篇。

主持黄山青年学者科研启动经费、中央高校基础研究项目、国家自然科学基金、创新特区项目、重点实验室开放课题、科学前沿创新专项等

中国通信学会青年工作委员会委员、安徽省通信学会常任理事等

教学工作
担任通信工程专业副主任,曾讲授:本科课程包括《无线接入技术》《无线通信网》《通信原理》,研究生课程《现代通信原理》
获奖情况

主要论著
J. Pan, L. Wang*, H. Lin, Z. Zha, and C. Kai, Intelligent Fast Cell Association Scheme Based on Deep Q-Learning in Ultra-Dense Cellular Networks, China Communications, vol. 18, no. 2, pp. 253-264, Feb. 2021.

J. Gou, L. Wang*, H. Lin, and M. Peng, Graph-Based Terminal Ranking for Sparsification of Interference Coordination Parameters in Ultra-Dense Networks, in Proc. MONAMI, Nov. 2020.

Z. Zha, L. Wang*, C. Huang, and C. Kai, Quick Matching for Interference Coordination in Ultra-Dense Networks, IEEE Wireless Communications Letter, vol. 9, no. 1, pp. 47-50, Jan. 2020.

王文浩,王禄生*,开彩红,刘超,逼近纳什均衡的动态蜂窝选择方案,合肥工业大学学报:自然科学版,第43卷,第5期,614-619页,2020年。

H. Lin, Z. Chen, and L. Wang, Offloading for Edge Computing in Low Power Wide Area Networks With Energy Harvesting , IEEE Access, vol. 7, pp. 78919-78929, 2019.

C. Kai, T. Huang, X. Hu, and L. Wang, Energy Saving and Interference Cancellation in the WLAN with a Full-Duplex Access Point, in Proc. ICC, May 2019.

C. Fang, L. Wang*, H. Lin, and M. Peng, A Generic Polynomial-Time Cell Association Scheme in Ultra-Dense Cellular Networks, in Proc. ChinaCom, pp. 1-17, Nov. 2019.

S. Zhang, L. Wang*, C. Kai, and W. Wang, Sparse-Domain Interference Coordination Scheme in Ultra-Dense Networks, in Proc. IEEE ICCC, pp. 1-5, Dec. 2018.

L. Wang, K. Chang, X. Wang, Z. Wei, Q. Hu, and C. Kai*, A Mass-Processing Simulation Framework for Resource Management in Dense 5G-IoT Scenarios, KSII Transactions on Internet and Information Systems, vol. 12, no. 9, pp. 4122-4143, Sept. 2018.

C.  Kai, T. Huang, L. Wang, and Y. Gu, CSMA-Based Utility-Optimal  Scheduling in the WLAN With a Full-Duplex Access Point, IEEE Access,  vol. 6, pp. 41399 - 41409, July 2018.

J. Zhou, L. Wang*, W. Wang, and Q. Zhou, Efficient Graph-Based Resource Allocation Scheme Using Maximal Independent Set for Randomly-Deployed Small Star Networks, Sensors, vol. 17, Nov. 2017.

L. Wang*, F. Fang, N. Nikaein, and L. Cottatellucci, An Analytical Framework for Multilayer Partial Frequency Reuse Scheme Design in Mobile Communication Systems, IEEE Trans. Veh. Technol., vol. 65, no. 9, pp. 7593-7605, Sept. 2016.

Y. Fan, H. Ding , L. Wang, and X. Yuan, Green latency-aware data placement in data centers, Computer Networks, vol. 110, pp. 46-57, Sept. 2016.

W. Chen, L. Wang*,  Y. Fan, H. Lin, and X. Wei, Efficient resource allocation and  interference management using compressive sensing in dense mobile  communication systems, in Proc. WCSP, Yangzhou, Oct. 2016.

L. Wang*,  W. Chen, Z. Ding, W. Guo, and M. Peng, Practical framework for  ultra-fair dynamic interference coordination in mobile communication  systems, IET Commun., vol. 10, no. 4, pp. 372-380, Sept. 2016.

X. Wang, X. Chen, W. Wu*, N. An, and L. Wang, Cooperative application execution in mobile cloud computing: a stackelberg game approach, IEEE Commun. Lett., vol. 20, no. 5, pp. 946-949, May 2016.

H. Lin, L. Wang*, and R. Kong, Energy Efficient Clustering Protocol for Large-Scale Sensor Networks, IEEE Sensors Journal, vol. 15, no. 12, pp. 7150-7160, Dec. 2015.

W. Liao, L. Wang*, and J. Li, Congestion game with inter-cell interference for cell selection in heterogeneous cellular network, in Proc. IEEE/CIC International Conference on Communications in China (IEEE/CIC ICCC), pp. 603-608, Shanghai, Oct. 2014.

L. Wang*, C. Goursaud, N. Nikaein, L. Cottatellucci, and J.-M. Gorce, Cooperative Scheduling for Coexisting Body Area Networks, IEEE Trans. Wireless Commun., vol. 12, no. 1, pp. 123-133, Jan. 2013.

L. Wang and G.-S. Kuo*, Mathematical Modeling for Network Selection in Heterogeneous Wireless Networks - A Tutorial, IEEE Commun. Surv. & Tut., vol. 15, no. 1, pp. 271-293, First Quarter 2013.

L. Wang* and D. Binet, Mobility-based network selection in heterogeneous wireless networks, in Proc. IEEE VTC Spring, pp. 1-5, Barcelona, April 2009.

L. Wang*, B. Gaabab, D. Binet, and D. Kofman, Novel MAP selection scheme using location history in hierarchical MIPv6 networks, in Proc. IEEE WCNC, pp. 2420-2425, Las Vegas, April 2008.