The capacity of aeronautical ad-hoc networks

被引:8
|
作者
Yan, Jianshu [1 ]
Hua, Cunqing [2 ]
Chen, Cailian [1 ]
Guan, Xinping [1 ]
机构
[1] Shanghai Jiao Tong Univ, Dept Automat, Shanghai 200240, Peoples R China
[2] Shanghai Jiao Tong Univ, Sch Informat Secur Engn, Shanghai 200240, Peoples R China
来源
WIRELESS NETWORKS | 2014年 / 20卷 / 07期
关键词
Aeronautical ad-hoc networks; Network capacity; Performance analysis; WIRELESS NETWORKS; DELAY;
D O I
10.1007/s11276-014-0737-7
中图分类号
TP [自动化技术、计算机技术];
学科分类号
0812 ;
摘要
(C)urrently aeronautical communications are extremely limited by the Aeronautical Telecommunications Network standard, which does not support the inter-aircraft communications directly. To this end, we consider an aeronautical ad-hoc network based on a single flight path, whereby the aircrafts in the cruise stage can communicate with each other through multi-hop relays without the aid of ground stations. Due to the special topology of this network model, existing results based on the conventional mobile ad-hoc networks are not applicable for determining its capacity scaling law. In this paper, we prove the upper bound on the per-node capacity and construct a simple transmission scheduling scheme to achieve the lower bound.
引用
收藏
页码:2123 / 2130
页数:8
相关论文
共 50 条
  • [41] Localization in ad-hoc networks
    Dana, Arash
    Zadeh, Ahmad Khadem
    Hekmat, Baktash
    [J]. ICT-MICC: 2007 IEEE INTERNATIONAL CONFERENCE ON TELECOMMUNICATIONS AND MALAYSIA INTERNATIONAL CONFERENCE ON COMMUNICATIONS, VOLS 1 AND 2, PROCEEDINGS, 2007, : 313 - +
  • [42] Ad-hoc filesystem: A novel network Filesystem for ad-hoc wireless networks
    Yasuda, K
    Hagino, T
    [J]. NETWORKING - ICN 2001, PART II, PROCEEDINGS, 2001, 2094 : 177 - 185
  • [43] Maximum flow and network capacity of network coding for ad-hoc networks
    Wang, Hongzheng
    Fan, Pingyi
    Letaief, Khaled Ben
    [J]. IEEE TRANSACTIONS ON WIRELESS COMMUNICATIONS, 2007, 6 (12) : 4193 - 4198
  • [44] Quadratic Estimation of Success Probability of Greedy Geographic Forwarding in Unmanned Aeronautical Ad-hoc Networks
    Shirani, Rostam
    St-Hilaire, Marc
    Kunz, Thomas
    Zhou, Yifeng
    Li, Jun
    Lamont, Louise
    [J]. 2012 IEEE 75TH VEHICULAR TECHNOLOGY CONFERENCE (VTC SPRING), 2012,
  • [45] CONCURRENT LINK CAPACITY OF MIMO AD-HOC NETWORKS WITH QoS CONSTRAINT
    Zhao, Pengkai
    Daneshrad, Babak
    Gerla, Mario
    Pei, Guangyu
    Kim, Jae H.
    [J]. 2008 IEEE MILITARY COMMUNICATIONS CONFERENCE: MILCOM 2008, VOLS 1-7, 2008, : 3257 - +
  • [46] Two-Way Transmission Capacity of Wireless Ad-hoc Networks
    Vaze, Rahul
    Truong, Kien T.
    Weber, Steven
    Heath, Robert W., Jr.
    [J]. IEEE TRANSACTIONS ON WIRELESS COMMUNICATIONS, 2011, 10 (06) : 1966 - 1975
  • [47] Capacity of Wireless Ad-Hoc Networks under Multipacket Transmission and Reception
    Karande, Shirish
    Wang, Zheng
    Sadjadpour, Hamid R.
    Garcia-Luna-Aceves, J. J.
    [J]. 2008 42ND ASILOMAR CONFERENCE ON SIGNALS, SYSTEMS AND COMPUTERS, VOLS 1-4, 2008, : 2115 - +
  • [48] Too much mobility limits the capacity of wireless ad-hoc networks
    Jafar, SA
    [J]. GLOBECOM '04: IEEE GLOBAL TELECOMMUNICATIONS CONFERENCE, VOLS 1-6, 2004, : 3436 - 3440
  • [49] GRU-Aided Intra-Cluster Topology Mapping for Aeronautical Ad-Hoc Networks
    Bilen, Tugce
    Canberk, Berk
    [J]. 2022 IEEE GLOBAL COMMUNICATIONS CONFERENCE (GLOBECOM 2022), 2022, : 5989 - 5994
  • [50] Capacity-based connectivity of MIMO fading ad-hoc networks
    Jafarkhani, H
    Yousefi'zadeh, H
    Kazemitabar, J
    [J]. GLOBECOM '05: IEEE Global Telecommunications Conference, Vols 1-6: DISCOVERY PAST AND FUTURE, 2005, : 2827 - 2831
12345