A unified model for joint throughput-overhead analysis of random access mobile ad hoc networks

An analytical framework is developed to study the throughput and routing overhead for proactive and reactive routing strategies in random access mobile ad hoc networks. To characterize the coexistence of the routing control traffic and data traffic, the interaction is modeled as a multi-class queue at each node, where the aggregate control traffic and data traffic are two different classes of customers of the queue. With the proposed model, the scaling properties of the throughput, maximum mobility degree supported by the network and mobility-induced throughput deficiencies are investigated, under both classes of routing strategies. The proposed analytical model can be extended to evaluate various routing optimization techniques as well as to study routing/relaying strategies other than conventional proactive or reactive routing. The connection between the derived throughput result and some well-known network throughput capacity results in the literature is also established.

[1]  Samir Ranjan Das,et al.  Comparative performance evaluation of routing protocols for mobile, ad hoc networks , 1998, Proceedings 7th International Conference on Computer Communications and Networks (Cat. No.98EX226).

[2]  David A. Maltz,et al.  DSR: the dynamic source routing protocol for multihop wireless ad hoc networks , 2001 .

[3]  Martin Mauve,et al.  A survey on position-based routing in mobile ad hoc networks , 2001, IEEE Netw..

[4]  Ivan Marsic,et al.  Clustering overhead for hierarchical routing in mobile ad hoc networks , 2002, Proceedings.Twenty-First Annual Joint Conference of the IEEE Computer and Communications Societies.

[5]  Elizabeth M. Belding-Royer,et al.  A review of current routing protocols for ad hoc mobile wireless networks , 1999, IEEE Wirel. Commun..

[6]  Ahmed Helmy,et al.  Modeling path duration distributions in MANETs and their impact on reactive routing protocols , 2004, IEEE Journal on Selected Areas in Communications.

[7]  Charles E. Perkins,et al.  Ad hoc On-Demand Distance Vector (AODV) Routing , 2001, RFC.

[8]  Alhussein A. Abouzeid,et al.  Queuing network models for delay analysis of multihop wireless ad hoc networks , 2009, Ad Hoc Networks.

[9]  Eryk Dutkiewicz,et al.  A review of routing protocols for mobile ad hoc networks , 2004, Ad Hoc Networks.

[10]  Philippe Jacquet,et al.  Comparative Study of Routing Protocols for Mobile Ad-hoc NETworks , 2002 .

[11]  Anis Laouiti,et al.  Multipoint Relaying: An Efficient Technique for Flooding in Mobile Wireless Networks , 2000 .

[12]  David A. Maltz,et al.  A performance comparison of multi-hop wireless ad hoc network routing protocols , 1998, MobiCom '98.

[13]  A. L. Edwards,et al.  An introduction to linear regression and correlation. , 1985 .

[14]  Ness B. Shroff,et al.  Delay and Capacity Trade-Offs in Mobile Ad Hoc Networks: A Global Perspective , 2006, Proceedings IEEE INFOCOM 2006. 25TH IEEE International Conference on Computer Communications.

[15]  Charles E. Perkins,et al.  Ad Hoc Networking , 2001 .

[16]  Paolo Santi,et al.  A Statistical Analysis of the Long-Run Node Spatial Distribution in Mobile Ad Hoc Networks , 2002, MSWiM '02.

[17]  Kim L. Blackmore,et al.  An Analysis Framework for Mobility Metrics in Mobile Ad Hoc Networks , 2007, EURASIP J. Wirel. Commun. Netw..

[18]  Paolo Santi,et al.  A Statistical Analysis of the Long-Run Node Spatial Distribution in Mobile Ad Hoc Networks , 2004 .

[19]  Consolee Mbarushimana,et al.  Comparative Study of Reactive and Proactive Routing Protocols Performance in Mobile Ad Hoc Networks , 2007, 21st International Conference on Advanced Information Networking and Applications Workshops (AINAW'07).

[20]  Zhen Liu,et al.  Capacity, delay and mobility in wireless ad-hoc networks , 2003, IEEE INFOCOM 2003. Twenty-second Annual Joint Conference of the IEEE Computer and Communications Societies (IEEE Cat. No.03CH37428).

[21]  Zhou Bo,et al.  A REVIEW OF ROUTING PROTOCOLS FOR MOBILE AD HOC NETWORKS , 2002 .

[22]  Yijie Han,et al.  Distribution of path durations in mobile ad-hoc networks - Palm's Theorem at work , 2003 .

[23]  Paolo Santi The critical transmitting range for connectivity in mobile ad hoc networks , 2005, IEEE Transactions on Mobile Computing.

[24]  Alhussein A. Abouzeid,et al.  Queuing network models for delay analysis of multihop wireless ad hoc networks , 2006, IWCMC '06.

[25]  Eitan Altman,et al.  Impact of Mobility on the Performance of Relaying in Ad Hoc Networks , 2006, Proceedings IEEE INFOCOM 2006. 25TH IEEE International Conference on Computer Communications.

[26]  Christian Bettstetter,et al.  On the minimum node degree and connectivity of a wireless multihop network , 2002, MobiHoc '02.

[27]  Devavrat Shah,et al.  Throughput and Delay in Random Wireless Networks With Restricted Mobility , 2007, IEEE Transactions on Information Theory.

[28]  Panganamala Ramana Kumar,et al.  RHEINISCH-WESTFÄLISCHE TECHNISCHE HOCHSCHULE AACHEN , 2001 .

[29]  SantiPaolo The Critical Transmitting Range for Connectivity in Mobile Ad Hoc Networks , 2005 .

[30]  David Tse,et al.  Mobility increases the capacity of ad hoc wireless networks , 2002, TNET.