2002.09-2008.06 中國 西南交通大學 博士研究生
2004.08-2005.01 日本 筑波大學 交換研究生
2008.09-2008.11 加拿大 滑鐵盧大學 研究助理
2008.12-2010.08 中國 西南交通大學 講師
2010.09- 中國 西南交通大學 副教授(破格晉升)
2010.07-2011.07 台灣 台灣科技大學 訪問學者
主要研究方向
無線資源管理,移動性管理,智慧型手機軟體設計
科學研究
科研項目信息
[1] 下一代全IP無線網路移動性管理策略研究. 項目類別: 國家自然科學基金, 項目批准號: 60902023, 資助金額: 16萬元, 研究期限: 2010.01-2012.12, 項目主持人: 王獻.
[2] LTE-Advanced中繼網路關鍵技術研究. 項目類別: 國家自然科學基金, 項目批准號: 61171096, 資助金額: 60萬元, 研究期限: 2012.01-2015.12, 項目主持人: 王獻.
第一(通訊)作者期刊論文
[1] 馬俊超 (碩士生) , 王獻, “LTE位置管理的開銷分析,” 電子與信息學報, 已錄用.
[2] X. Wang, X. Lei, P. Fan, Q. Hu, and S.-J. Horng, “Cost analysis of movement-based location management in PCS networks: An embedded Markov chain approach,” IEEE Transactions on Vehicular Technology, to appear.
[3] X. Wang, W. Jiang, and W. Yuan, “Modeling and cost analysis of an improved movement-based location update scheme in wireless communication networks,” Wireless Personal Communications, to appear.
[4] X. Wang, P. Fan, and Y. Pan, “Impact of busy-line effect upon inter-service time distribution and modeling of portable movements in PCS networks,” IEEE Transactions on Vehicular Technology, vol. 59, no. 2, pp. 950-961, Feb. 2010.
[5] X. Wang and P. Fan, “A strongly consistent cached data access algorithm for wireless data networks,” Wireless Networks, vol. 15, no. 8, pp. 1013-1028, Nov. 2009.
[6] X. Wang, P. Fan, J. Li, and Y. Pan, “Modeling and cost analysis of movement-based location management for PCS networks with HLR/VLR architecture and general location area and cell residence time distributions,” IEEE Transactions on Vehicular Technology, vol. 57, no. 6, pp. 3815-3831, Nov. 2008.
[7] X. Wang, P. Fan, and Y. Pan, “A more realistic thinning scheme for call admission control in multimedia wireless networks,” IEEE Transactions on Computers, vol. 57, no. 8, pp. 1143-1147, Aug. 2008.
[8] X. Wang and P. Fan, “Channel holding time in wireless cellular communications with generally distributed session time and dwell time,” IEEE Communications Letters, vol. 11, no. 2, pp. 158-160, Feb. 2007
第一 (通訊) 作者會議論文
[1] X. Wang, X. Lei, R. Hu, and Y. Qian, “Modeling of tracking area list-based location update scheme in Long Term Evolution,” in Proc. IEEE ICC, Sydney, Jun. 2014, pp. 1-7.
[2] W. Jiang (碩士生) , X. Wang, and T. Deng, “Performance analysis of a pre-backoff based random access scheme for machine-type communications,” in Proc. IGBSG, Taipei, Apr. 2014, pp. 1-4.
[3] X. Wang, X. Lei, R. Hu, and G. Wu, “Cost analysis of movement-based location update scheme using an approach of embedded Markov chain,” in Proc. ICNC, Honolulu, Feb. 2014, pp. 1-7.
[4] Y. Liu (碩士生) and X. Wang “Performance optimization of an improved movement-based location update scheme in real PCS networks,” in Proc. ICPCA, Vina del Mar, Chile, Dec. 2013, pp. 1-6.
[5] T. Deng (碩士生) , X. Wang, and W. Jiang, “A Random access scheme based on device-to-device communications for machine-type communications,” in Proc. IEEE ICCT, Guilin, Nov. 2013, pp. 1-5.
[6] X. Wang, S.-J. Horng, R.-G. Cheng, and P. Fan, “Call dropping performance of the relay station (RS)-first channel access scheme in LTE-Advanced relay networks,” in Proc. ATNAC, Melbourne, Nov. 2011, pp. 1-6.
[7] X. Wang, S.-J. Horng, R.-G. Cheng, and P. Fan, “Call dropping performance analysis of the eNB-first channel access policy in LTE-Advanced relay networks,” in Proc. IEEE WiMob, Shanghai, Oct. 2011, pp. 43-50.
合作期刊論文
[1] S.-J. Horng, S.-F. Tzeng, Y. Pan, P. Fan, X. Wang, T. Li, and M. K. Khan, “b-SPECS+: Batch verification for secure pseudonymous authentication in VANET,” IEEE Transactions on Information Forensics & Security, to appear.
[2] D. Rosiyadi, S.-J. Horng, P. Fan, X. Wang, M. K. Khan, and Y. Pan, “An efficient copyright protection scheme for e-government document images,” IEEE Multimedia, vol. 19, no. 3, pp. 62-73, July-Sept. 2012.
[3] H.-Wen. Ferng, C.-C. Liu, and X. Wang, “Cooperative location management for a cellular network with ad hoc communication,” Wireless Personal Communications, vol. 70, no. 4, pp. 1941-1964, Apr. 2013.
合作會議論文
[1] X. Lei, L. Fan, P. Fan, Q. Hu, and X. Wang, “Outage probability and BER of switch-and-stay combining in two-way relay systems with analog network coding,” in Proc. IEEE WCNC, pp. 3397-3402, 2013.
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