DocumentCode :
61265
Title :
All-Spectrum Cognitive Networking through Joint Distributed Channelization and Routing
Author :
Ding, Lei ; Gao, Kanke ; Melodia, Tommaso ; Batalama, Stella N. ; Pados, Dimitris A. ; Matyjas, John D.
Author_Institution :
Department of Electrical Engineering, The State University of New York at Buffalo, Buffalo, NY 14260, USA
Volume :
12
Issue :
11
fYear :
2013
fDate :
Nov-13
Firstpage :
5394
Lastpage :
5405
Abstract :
We consider a secondary multi-hop cognitive radio network with decentralized control that operates cognitively to coexist with primary users. We propose a new spread-spectrum management paradigm, in which, unlike mainstream dynamic spectrum access research, digital waveforms are designed to occupy the entire available spectrum, and to adaptively track the interference profile at the receiver to maximize the link capacity while avoiding interference to primary users. In this context, we study the problem of maximizing the network throughput of a multi-hop network through joint routing and spread-spectrum channelization. We first propose a centralized formulation of the network control problem. We then propose an algorithm that can be seen as a distributed localized approximation of the throughput-maximizing policy. We refer to the proposed jointly-designed routing and code-division channelization algorithm as ROCH (Routing and cOde-division CHannelization). Specifically, power and spreading code are jointly selected to maximize the pre-detection secondary mathrm{SINR} while providing quality of service guarantees to on-going primary and secondary transmissions, while the routing algorithm dynamically selects relays based on the network traffic dynamics and on the achievable data rates on different secondary links. We study the throughput and delay performance of ROCH through a extensive simulation experiments, which demonstrate the appeal of the proposed framework through significant performance gains compared to baseline solutions.
Keywords :
Ad hoc networks; Heuristic algorithms; Interference; Joints; Resource management; Routing; Signal to noise ratio; Cognitive radio networks; ad hoc networks; code-channel allocation; code-division channelization; cross-layer design; power allocation; routing;
fLanguage :
English
Journal_Title :
Wireless Communications, IEEE Transactions on
Publisher :
ieee
ISSN :
1536-1276
Type :
jour
DOI :
10.1109/TWC.2013.100213.120545
Filename :
6644234
Link To Document :
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