Authors: Magnus Eriksson, Arif Mahmud

Abstract:

A novel idea presented in this paper is to combine multihop routing with single-frequency networks (SFNs) for a broadcasting scenario. An SFN is a set of multiple nodes that transmit the same data simultaneously, resulting in transmitter macrodiversity. Two of the most important performance factors of multihop networks, node reachability and routing robustness, are analyzed. Simulation results show that our proposed SFN-D routing algorithm improves the node reachability by 37 percentage points as compared to non-SFN multihop routing. It shows a diversity gain of 3.7 dB, meaning that 3.7 dB lower transmission powers are required for the same reachability. Even better results are possible for larger networks. If an important node becomes inactive, this algorithm can find new routes that a non-SFN scheme would not be able to find. Thus, two of the major problems in multihopping are addressed; achieving robust routing as well as improving node reachability or reducing transmission power.

Keywords: OFDM, single-frequency networks (SFN), DSFN, MANET; multihop routing, transmitter macrodiversity, broadcasting.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1084314

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References:

[1] Josh Broch, David A. Maltz , David B. Johnson, and Yih-Chun Hu, A Performance Comparison of Multi-Hop Wireless Ad Hoc Network Routing Protocols,Computer Science Department, Carnegie Mellon University, Pittsbur~, PA 15213,Year of Publication: 1998
[2] Blanca Alicia Correa , Laura Ospina, and Roberto Carlos Hincapie, Survey of clustering techniques for mobile ad hoc networks, Universidad Pontificia Bolivariana, Group Research, Development and Application in Telecommunications and Informatics (GIDATI). Faculty of Engineering. 1a Circular No. 70-01. Medellin,Colombia. Received 25 January 2007, Accepted on 12 April 2007.
[3] Qiangfeng Jiang, and D. Manivannan, Routing Protocols for Sensor Networks, Department of Computer Science, University of Kentucky, Lexington, KY, USA,Date: 5-8 Jan. 2004,On page(s): 93- 98
[4] Christian Ibars and Yeheskel Bar-Ness, OFDM detection in a macrodiversity system with multiple frequency offsets, Center for Communications and Signal Processing Research, New Jersey Institute of Technology, Newark, NJ 07102 USA.
[5] Christian Ibars and Yeheskel Bar-Ness, Inter-Carrier Interference Cancellation for OFDM Systems with Macrodiversity and Multiple Frequency Offsets, Center for Communications and Signal Processing Research, ECE Dept., New Jersey Institute of Technology, Newark, NJ 07102, U.S.A. Wireless personal communication, Springer Netherlands, Volume 26 , Issue 4 (September 2003), Pages: 285 - 304, Years of publication: 2003
[6] Dukhyun Kim, and Gordon L. St¨uber,, Residual ISI Cancellation for OFDM with Applications to HDTV Broadcasting. Dept. of Electr. & Comput. Eng., Georgia Inst. of Technol., Atlanta, GA Selected Areas in Communications, IEEE Journal on Publication Date: Oct 1998, Volume: 16, Issue: 8, On page(s): 1590-1599
[7] Magnus Eriksson, Dynamic Single Frequency Netoworks, IEEE Journal on Selected Areas in Communications, vol. 19, no. 10, pp. 1905-1914, Oct 2001.
[8] Lawrence Williams, Daniel Wu, Eldon Staggs, Albert Yen, Ultrawideband radio design for multiband OFDM 480 Mb/s wireless USB, Ansoft corporation, DesignCon 2005