TANG AND WANG:MAC FOR EFFICIENT COEXISTENCE BETWEEN FULL-AND HALF-DUPLEX COMMUNICATIONS 5885 REFERENCES [22]Z.Hadzi-Velkov and B.Spasenovski,"Capture effect in IEEE 802.11 [1]J.I.Choi,M.Jain,K.Srinivasan,P.Levis,and S.Katti,"Achieving single basic service area under influence of Rayleigh fading and near/far effect," in Proc.IEEE Int.Symp.Pers..Indoor Mobile Radio Commun..2002. channel,full duplex wireless communication,"in Proc.ACM MobiCom. vol.1,Pp.172-176. 2010.Pp.1-12. [2]M.Jain et al.."Practical.real-time,full duplex wireless,"in Proc.ACM [23]"Cisco wireless mesh access points,design and deployment guide. MobiCom,2011,Pp.301-312. Release 7.3,"Cisco.San Jose.CA,USA.Cisco Rep..p.55,2012. [3]M.Duarte,C.Dick,and A.Sabharwal,"Experiment-driven characteri- [24]A.Kamerman and L.Monteban,"WaveLAN-II:A high-performance zation of full-duplex wireless systems,"IEEE Trans.Wireless Commun., wireless LAN for the unlicensed band,"Bell Lab.Tech.J.,vol.2,no.3, vol.11,no.12.pp.4296-4307,Dec.2012. Pp.118-133,Summer1997. [4]E.M.Dinesh Bharadia and S.Katti,"Full duplex radios,"in Proc.ACM [25]R.Jain,D.-M.Chiu,and W.R.Hawe,"A quantitative measure of fairness S1 GCOMM,2013,pp.375-386. and discrimination for resource allocation in shared computer system." [5]A.Tang and X.Wang,"Balanced RF-circuit based self-interference Eastern Res.Lab.,Digital Equip.Corp.,Hudson,MA,USA.1984. cancellation for full duplex communications,"Ad Hoc Nerw.,vol.24 [26]T.Camp,J.Boleng,and V.Davies,"A survey of mobility models for ad Pp.214-227,Jan.2015. hoc network research,"Wireless Commun.Mobile Comput.,vol.2,no.5, [6]N.Singh et al.,"Efficient and fair MAC for wireless networks with self- Pp.483-502,Aug.2002. interference cancellation,"in Proc.IEEE WiOpt,2011,pp.94-101. [7]J.Y.Kim,O.Mashayekhi,H.Qu,M.Kazadiieva,and P.Levis,"Janus:A novel MAC protocol for full duplex radio,"Stanford Univ.Comput.Sci.. Stanford,CA,USA,Tech Rep.,2013. Aimin Tang received the B.S.degree in elec- [8]W.Zhou,K.Srinivasan,and P.Sinha,"RCTC:Rapid concurrent transmis- trical and computer engineering in 2013 from sion coordination in full duplex wireless networks,"in Proc.IEEE /CNP Shanghai Jiao Tong University (SJTU),Shanghai, 2013,Pp.1-10. China,where he is currently working toward the [9]X.Wang,A.Tang,and P.Huang."Full duplex random access for Ph.D.degree with the Wireless and Network- multi-user OFDMA communication systems,"Ad Hoc Netw.,vol.24, ing Laboratory.His current research interests in- Pp.200-213,Jan.2015. clude full-duplex communications,rateless coding. [10]A.Kochut,A.Vasan.A.U.Shankar,and A.Agrawala,"Sniffing out the D2D communications,and software-defined wireless correct physical layer capture model in 802.11b,"in Proc.IEEE ICNP. networks. 2004,Pp.252-261. [11]K.Whitehouse,A.Woo,F.Jiang.J.Polastre,and D.Culler,"Exploiting the capture effect for collision detection and recovery,"in Proc./EEE 2nd Workshop Embedded Netw.Sens..2005.pp.45-52. [12]J.Lee et al.."An experimental study on the capture effect in 802.11a networks,"in Proc.2nd ACM Int.Workshop Wireless Netw.Testbeds.Exp. Eval.Character,2007,pp.19-26. Xudong Wang (S'00-M'03-SM'08)received the [13]N.Santhapuri et al.,"Message in message MIM:A case for reordering Ph.D.degree in electrical and computer engineer- transmissions in wireless networks,"in Proc.7th ACM Workshop Hot ing from the Georgia Institute of Technology Topics Nerw:,2008.pp.25-30. Atlanta,GA,USA,in 2003.He is currently with [14]Wireless LAN Medium Access Control (MAC)and Physical Layer (PHY) the UM-SJTU Joint Institute,Shanghai Jiao Tong Specifications.IEEE Std.802.11-1999.1999. University (SJTU),Shanghai,China.He is a Distin- [15]C.Gezer,C.Buratti,and R.Verdone,"Capture effect in IEEE 802.15.4 guished Professor (Shanghai Oriental Scholar)and networks:Modelling and experimentation,"in Proc.IEEE Int.Symp. is the Director of the Wireless and NetworkinG Wireless Pervasive Comput..2010,pp.204-209. (WANG)Laboratory,SJTU.He is also an affiliate [16]C.Ware.J.Chicharo.and T.Wysocki."Simulation of capture behav- faculty member with the Department of Electrical iour in IEEE 802.11 radio modems,"in Proc./EEE VTC,2001,vol.3, Engineering.University of Washington,Seattle,WA. Pp.1393-1397. USA.Since August 2003,he has been working as a Senior Research Engineer, [17]A.Tang and X.Wang."Medium access control for a wireless LAN with Senior Network Architect,and R&D Manager in several companies.He has a full duplex AP and half duplex stations,"in Proc.IEEE GLOBECOM. been actively involved in R&D.technology transfer.and commercialization of 2014,Pp.47324737. various wireless networking technologies.He holds several patents on wireless [18]M.Shreedhar and G.Varghese,"Efficient fair queuing using deficit round- networking technologies,and most of his inventions have been successfully robin,"IEEE/ACM Trans.Netw.,vol.4,no.3,pp.375-385,Jun.1996. transferred to products.His research interests include wireless communication [19]G.Bianchi,"Performance analysis of the IEEE 802.11 distributed coordi- networks,smart grid,and cyber-physical systems.Dr.Wang is an Editor of nation function,"IEEE J.Sel.Areas Commun.,vol.18,no.3,pp.535-547, the IEEE TRANSACTIONS ON MOBILE COMPUTING,IEEE TRANSACTIONS Mar 2000 ON VEHICULAR TECHNOLOGY,and Elsevier Ad Hoc Nenworks.He was the [20]W.C.Jakes and D.C.Cox.Microwave Mobile Communications. Demo Co-Chair for the ACM International Symposium on Mobile Ad Hoc Piscataway,NJ,USA:IEEE Press,1994. Networking and Computing (ACM MOBIHOC 2006),a Technical Program [21]M.Zorzi and R.R.Rao,"Capture and retransmission control in mobile Co-Chair for the Wireless Internet Conference (WICON)2007,and a General radio,"IEEE J.Sel.Areas Commun.,vol.12,no.8,pp.1289-1298, Co-Chair for WICON 2008.He has been a Technical Committee Member for 0ct.1994. many international conferences.TANG AND WANG: MAC FOR EFFICIENT COEXISTENCE BETWEEN FULL- AND HALF-DUPLEX COMMUNICATIONS 5885 REFERENCES [1] J. I. Choi, M. Jain, K. Srinivasan, P. Levis, and S. Katti, “Achieving single channel, full duplex wireless communication,” in Proc. ACM MobiCom, 2010, pp. 1–12. [2] M. Jain et al., “Practical, real-time, full duplex wireless,” in Proc. ACM MobiCom, 2011, pp. 301–312. [3] M. Duarte, C. Dick, and A. Sabharwal, “Experiment-driven characteri￾zation of full-duplex wireless systems,” IEEE Trans. Wireless Commun., vol. 11, no. 12, pp. 4296–4307, Dec. 2012. [4] E. M. Dinesh Bharadia and S. Katti, “Full duplex radios,” in Proc. ACM SIGCOMM, 2013, pp. 375–386. [5] A. Tang and X. Wang, “Balanced RF-circuit based self-interference cancellation for full duplex communications,” Ad Hoc Netw., vol. 24, pp. 214–227, Jan. 2015. [6] N. Singh et al., “Efficient and fair MAC for wireless networks with self￾interference cancellation,” in Proc. IEEE WiOpt, 2011, pp. 94–101. [7] J. Y. Kim, O. Mashayekhi, H. Qu, M. Kazadiieva, and P. Levis, “Janus: A novel MAC protocol for full duplex radio,” Stanford Univ. Comput. Sci., Stanford, CA, USA, Tech Rep., 2013. [8] W. Zhou, K. Srinivasan, and P. Sinha, “RCTC: Rapid concurrent transmis￾sion coordination in full duplex wireless networks,” in Proc. IEEE ICNP, 2013, pp. 1–10. [9] X. Wang, A. Tang, and P. Huang, “Full duplex random access for multi-user OFDMA communication systems,” Ad Hoc Netw., vol. 24, pp. 200–213, Jan. 2015. [10] A. Kochut, A. Vasan, A. U. Shankar, and A. Agrawala, “Sniffing out the correct physical layer capture model in 802.11b,” in Proc. IEEE ICNP, 2004, pp. 252–261. [11] K. Whitehouse, A. Woo, F. Jiang, J. Polastre, and D. Culler, “Exploiting the capture effect for collision detection and recovery,” in Proc. IEEE 2nd Workshop Embedded Netw. Sens., 2005, pp. 45–52. [12] J. Lee et al., “An experimental study on the capture effect in 802.11a networks,” in Proc. 2nd ACM Int. Workshop Wireless Netw. Testbeds, Exp. Eval. Character., 2007, pp. 19–26. [13] N. Santhapuri et al., “Message in message MIM: A case for reordering transmissions in wireless networks,” in Proc. 7th ACM Workshop Hot Topics Netw., 2008, pp. 25–30. [14] Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications, IEEE Std. 802.11-1999, 1999. [15] C. Gezer, C. Buratti, and R. Verdone, “Capture effect in IEEE 802.15.4 networks: Modelling and experimentation,” in Proc. IEEE Int. Symp. Wireless Pervasive Comput., 2010, pp. 204–209. [16] C. Ware, J. Chicharo, and T. Wysocki, “Simulation of capture behav￾iour in IEEE 802.11 radio modems,” in Proc. IEEE VTC, 2001, vol. 3, pp. 1393–1397. [17] A. Tang and X. Wang, “Medium access control for a wireless LAN with a full duplex AP and half duplex stations,” in Proc. IEEE GLOBECOM, 2014, pp. 4732–4737. [18] M. Shreedhar and G. Varghese, “Efficient fair queuing using deficit round￾robin,” IEEE/ACM Trans. Netw., vol. 4, no. 3, pp. 375–385, Jun. 1996. [19] G. Bianchi, “Performance analysis of the IEEE 802.11 distributed coordi￾nation function,” IEEE J. Sel. Areas Commun., vol. 18, no. 3, pp. 535–547, Mar. 2000. [20] W. C. Jakes and D. C. Cox, Microwave Mobile Communications. Piscataway, NJ, USA: IEEE Press, 1994. [21] M. Zorzi and R. R. Rao, “Capture and retransmission control in mobile radio,” IEEE J. Sel. Areas Commun., vol. 12, no. 8, pp. 1289–1298, Oct. 1994. [22] Z. Hadzi-Velkov and B. Spasenovski, “Capture effect in IEEE 802.11 basic service area under influence of Rayleigh fading and near/far effect,” in Proc. IEEE Int. Symp. Pers., Indoor Mobile Radio Commun., 2002, vol. 1, pp. 172–176. [23] “Cisco wireless mesh access points, design and deployment guide, Release 7.3,” Cisco, San Jose, CA, USA, Cisco Rep., p. 55, 2012. [24] A. Kamerman and L. Monteban, “WaveLAN-II: A high-performance wireless LAN for the unlicensed band,” Bell Lab. Tech. J., vol. 2, no. 3, pp. 118–133, Summer 1997. [25] R. Jain, D.-M. Chiu, and W. R. Hawe, “A quantitative measure of fairness and discrimination for resource allocation in shared computer system,” Eastern Res. Lab., Digital Equip. Corp., Hudson, MA, USA, 1984. [26] T. Camp, J. Boleng, and V. Davies, “A survey of mobility models for ad hoc network research,” Wireless Commun. Mobile Comput., vol. 2, no. 5, pp. 483–502, Aug. 2002. Aimin Tang received the B.S. degree in elec￾trical and computer engineering in 2013 from Shanghai Jiao Tong University (SJTU), Shanghai, China, where he is currently working toward the Ph.D. degree with the Wireless and Network￾ing Laboratory. His current research interests in￾clude full-duplex communications, rateless coding, D2D communications, and software-defined wireless networks. Xudong Wang (S’00–M’03–SM’08) received the Ph.D. degree in electrical and computer engineer￾ing from the Georgia Institute of Technology, Atlanta, GA, USA, in 2003. He is currently with the UM–SJTU Joint Institute, Shanghai Jiao Tong University (SJTU), Shanghai, China. He is a Distin￾guished Professor (Shanghai Oriental Scholar) and is the Director of the Wireless and NetworkinG (WANG) Laboratory, SJTU. He is also an affiliate faculty member with the Department of Electrical Engineering, University of Washington, Seattle, WA, USA. Since August 2003, he has been working as a Senior Research Engineer, Senior Network Architect, and R&D Manager in several companies. He has been actively involved in R&D, technology transfer, and commercialization of various wireless networking technologies. He holds several patents on wireless networking technologies, and most of his inventions have been successfully transferred to products. His research interests include wireless communication networks, smart grid, and cyber–physical systems. Dr. Wang is an Editor of the IEEE TRANSACTIONS ON MOBILE COMPUTING, IEEE TRANSACTIONS ON VEHICULAR TECHNOLOGY, and Elsevier Ad Hoc Networks. He was the Demo Co-Chair for the ACM International Symposium on Mobile Ad Hoc Networking and Computing (ACM MOBIHOC 2006), a Technical Program Co-Chair for the Wireless Internet Conference (WICON) 2007, and a General Co-Chair for WICON 2008. He has been a Technical Committee Member for many international conferences