An Energy-Efficient and Low-Latency MAC Protocol in Smart Grid(SG-MAC)
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- 英文论文题名:An Energy-Efficient and Low-Latency MAC Protocol in Smart Grid(SG-MAC)
- 论文作者:Ehsan Banari ; Sayyed Majid Mazinani ; Iman Sariri Ajili
- 英文论文作者:Ehsan Banari ; Sayyed Majid Mazinani ; Iman Sariri Ajili ; Imam Reza International University ; IACSIT ; Iranian Construction Engineering Organization Province of Khorasan Razavi
- 年:2015
- 作者机构:Imam Reza International University;IACSIT;Iranian Construction Engineering Organization Province of Khorasan Razavi;
- 英文论文关键词:Smart grid(SG) ; medium channel access control(MAC) ; sensor-MAC(S-MAC) ; request to send(RTS) ; clear to send(CTS)
- 会议召开时间:2015-07-01
- 会议录名称:Journal of Clean Energy Technologies Vol.3 No.4
- 语种:英文
- 分类号:TM76
- 学会代码:CDYA
- 学会名称:成都亚昂教育咨询有限公司
- 页数:5
- 文件大小:1988k
- 原文格式:D
摘要
In this paper we propose a new protocol-namedSGMAC for reducing the energy consumption and shortening the time of data sending in smart grid to control media Access. This protocol uses sleeping and waking intervals distinct in the same duty cycle and the sender node will participate only in the period of receiving node over the ownership of the channel. Furthermore, we have compared the proposed protocol from the point of view of energy and delay with IEEE802.11 and SMAC in two different protocol topologies. In the simulation results illustrated that SG-MAC protocol using data gathering tree and apply collection sleep and waking intervals, less delay in comparison with the SMAC protocol and much less energy consumption in comparison with the IEEE802.11.
In this paper we propose a new protocol-namedSGMAC for reducing the energy consumption and shortening the time of data sending in smart grid to control media Access. This protocol uses sleeping and waking intervals distinct in the same duty cycle and the sender node will participate only in the period of receiving node over the ownership of the channel. Furthermore, we have compared the proposed protocol from the point of view of energy and delay with IEEE802.11 and SMAC in two different protocol topologies. In the simulation results illustrated that SG-MAC protocol using data gathering tree and apply collection sleep and waking intervals, less delay in comparison with the SMAC protocol and much less energy consumption in comparison with the IEEE802.11.
In this paper we propose a new protocol-namedSGMAC for reducing the energy consumption and shortening the time of data sending in smart grid to control media Access. This protocol uses sleeping and waking intervals distinct in the same duty cycle and the sender node will participate only in the period of receiving node over the ownership of the channel. Furthermore, we have compared the proposed protocol from the point of view of energy and delay with IEEE802.11 and SMAC in two different protocol topologies. In the simulation results illustrated that SG-MAC protocol using data gathering tree and apply collection sleep and waking intervals, less delay in comparison with the SMAC protocol and much less energy consumption in comparison with the IEEE802.11.
引文
[1]C.Cecati,G.Mokryani,A.Piccolo,and P.Siano,“An overview on the smart grid concept,”in Proc.36th Annual Conference on IEEE Industrial Electronics Society,2010.
[2]N.Saputro,K.Akkaya,and S.Uludag,“A survey of routing protocols for smart grid communications,”Computer Networks Elsevier,2012.
[3]H.Li and W.Zhang,“Qo S routing in smart grid,”in IEEE Global Telecommunications Conf.GLOBECOM,2010,pp.1–6.
[4]Q.Wang,J.Wang,Y.Lin,J.Tang,and Z.Zhu,“Interference management for smart grid communication under cognitive wireless network,”in Proc.Smart Grid Communications(Smart Grid Comm)2012 IEEE Third International Conference,2012,pp.246–251.
[5]NIST,“NIST framework and roadmap for smart grid interoperability standards,release 1.0,”2010.
[6]I.S.Al.Anbagi,H.T.Mouftah,and M.Erol-Kantarci,“Design of a delay-sensitive WSN for wind generation monitoring in the smart grid,”in Proc.Electrical and Computer Engineering(CCECE)201124th Canadian Conference,2011,pp.1370–1373.
[7]G.J.Pottie and W.J.Kaiser,“Wireless integrated network sensor,”Communications of the ACM,vol.43,no.5,pp.51–58,May 2000.
[8]K.Oh,S.Woo,S.Sung,and K.Kim,“Improved energy efficiency of dmac with periodic full sleep cycle for wireless sensor networks with heavy traffics,”in Proc.Intelligent Sensors?Sensor Networks and Information 2007,ISSNIP 3rd International Conference,2007,pp.85–89.
[9]G.Wolny,“Modified DMAC clustering algorithm for VANETs,”in Proc.Systems and Networks Communications 2008,ICSNC 3rd International Conference,2008,pp.268–273.
[10]F.Tobagi and L.Kleinrock,“Packet switching in radio channels:Part II-the hidden terminal problem in carrier sense multiple access and the busy–tone solution,”IEEE Transactions on Communications,vol.23,no.12,pp.1417–1433,Dec.1975.
[11]V.Bharghavan,A.Demers,S.Shenker,and L.Zhang,“Macaw:A media access protocol for wireless lans,”in Proc.the ACM SIGCOMM Conference,1994.
[12]Wireless LAN Medium Access Control(MAC)and Physical Layer(PHY)Specification,IEEE Standard 802.11-1997 Ed.,1997.
[13]Wireless LAN Medium Access Control(MAC)and Physical Layer(LHY)Specifications,IEEE Standard 802.11,1999.
[14]W.Ye and J.Heidemann,“Medium access control in wireless sensor networks,”Technical Reports ISI–TR–580,USC/Information Sciences Institute,Oct.2003,pp.1–8.
[15]W.Ye,J.Heidemann,and D.Estrin,“An energy-efficient MAC protocol for wireless sensor networks,”in Proc.IEEE INFOCOM 2002,New York,NY,June 2002,pp.1567–1576.
[16]W.Ye,J.Heidemann,and D.Estrin,“Medium access control with coordinated adaptive sleeping for wireless sensor networks,”Networking IEEE/ACM Trans,vol.12,no.3,pp.493–506,2004.
[2]N.Saputro,K.Akkaya,and S.Uludag,“A survey of routing protocols for smart grid communications,”Computer Networks Elsevier,2012.
[3]H.Li and W.Zhang,“Qo S routing in smart grid,”in IEEE Global Telecommunications Conf.GLOBECOM,2010,pp.1–6.
[4]Q.Wang,J.Wang,Y.Lin,J.Tang,and Z.Zhu,“Interference management for smart grid communication under cognitive wireless network,”in Proc.Smart Grid Communications(Smart Grid Comm)2012 IEEE Third International Conference,2012,pp.246–251.
[5]NIST,“NIST framework and roadmap for smart grid interoperability standards,release 1.0,”2010.
[6]I.S.Al.Anbagi,H.T.Mouftah,and M.Erol-Kantarci,“Design of a delay-sensitive WSN for wind generation monitoring in the smart grid,”in Proc.Electrical and Computer Engineering(CCECE)201124th Canadian Conference,2011,pp.1370–1373.
[7]G.J.Pottie and W.J.Kaiser,“Wireless integrated network sensor,”Communications of the ACM,vol.43,no.5,pp.51–58,May 2000.
[8]K.Oh,S.Woo,S.Sung,and K.Kim,“Improved energy efficiency of dmac with periodic full sleep cycle for wireless sensor networks with heavy traffics,”in Proc.Intelligent Sensors?Sensor Networks and Information 2007,ISSNIP 3rd International Conference,2007,pp.85–89.
[9]G.Wolny,“Modified DMAC clustering algorithm for VANETs,”in Proc.Systems and Networks Communications 2008,ICSNC 3rd International Conference,2008,pp.268–273.
[10]F.Tobagi and L.Kleinrock,“Packet switching in radio channels:Part II-the hidden terminal problem in carrier sense multiple access and the busy–tone solution,”IEEE Transactions on Communications,vol.23,no.12,pp.1417–1433,Dec.1975.
[11]V.Bharghavan,A.Demers,S.Shenker,and L.Zhang,“Macaw:A media access protocol for wireless lans,”in Proc.the ACM SIGCOMM Conference,1994.
[12]Wireless LAN Medium Access Control(MAC)and Physical Layer(PHY)Specification,IEEE Standard 802.11-1997 Ed.,1997.
[13]Wireless LAN Medium Access Control(MAC)and Physical Layer(LHY)Specifications,IEEE Standard 802.11,1999.
[14]W.Ye and J.Heidemann,“Medium access control in wireless sensor networks,”Technical Reports ISI–TR–580,USC/Information Sciences Institute,Oct.2003,pp.1–8.
[15]W.Ye,J.Heidemann,and D.Estrin,“An energy-efficient MAC protocol for wireless sensor networks,”in Proc.IEEE INFOCOM 2002,New York,NY,June 2002,pp.1567–1576.
[16]W.Ye,J.Heidemann,and D.Estrin,“Medium access control with coordinated adaptive sleeping for wireless sensor networks,”Networking IEEE/ACM Trans,vol.12,no.3,pp.493–506,2004.