Multi-hop coverage extension of an IEEE 802.11b WLAN in a corporate environment

In this paper, we propose to extend the coverage of IEEE 802.11b cells in indoor environments thanks to the multihop concept. By adding some relay nodes to the cell, that do not need to be connected to the wired network, it is shown that we can overcome the rapidly decreasing signal strength in an office environment, reduce the number of dead spots, and so drastically reduce the number of access pointsper unit area. Monte Carlo simulation results are provided for a practical corporate environment. In the presented scenario, the expected covered area is tripled thanks to relay nodes. Simulations also show a cellular capacity increase (CCI) thanks to link adaptation (LA) exceeding 6. A general method for the computation of the carrier to interference ratio (CIR) in a multi-hop cloud is presented. A modelization of the joint probabilitydensity function (pdf) related to the received power and the CIRs for each physical (PHY) modes is also proposed.

[1]  Bijan Jabbari,et al.  Self-organizing packet radio ad hoc networks with overlay (SOPRANO) , 2002, IEEE Commun. Mag..

[2]  Bijan Jabbari,et al.  On the capacity modeling of multi-hop cellular packet CDMA networks , 2001, 2001 MILCOM Proceedings Communications for Network-Centric Operations: Creating the Information Force (Cat. No.01CH37277).

[3]  Harald Haas,et al.  Coverage-capacity analysis of opportunity driven multiple access (ODMA) in UTRA TDD , 2001 .

[4]  Bijan Jabbari,et al.  Performance analysis of multihop packet CDMA cellular networks , 2001, GLOBECOM'01. IEEE Global Telecommunications Conference (Cat. No.01CH37270).

[5]  Leonard Kleinrock,et al.  Maximum Probability of Successful Transmission in a Random Planar Packet Radio Network , 1983, INFOCOM.

[6]  Bijan Jabbari,et al.  Throughput of a multihop packet CDMA network with power control , 2000, VTC2000-Spring. 2000 IEEE 51st Vehicular Technology Conference Proceedings (Cat. No.00CH37026).

[7]  Ieee . Wg Part11 : Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) specifications, Higher-Speed Physical Layer Extension in the 2.4 GHz Band , 1999 .

[8]  Steve McLaughlin,et al.  Capacity and power investigation of opportunity driven multiple access (ODMA) networks in TDD-CDMA based systems , 2002, 2002 IEEE International Conference on Communications. Conference Proceedings. ICC 2002 (Cat. No.02CH37333).

[9]  Ieee . Wg Part11 : Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) specifications, High-speed physical Layer in the 5 GHz Band , 1999 .