On the data gathering capacity and latency in wireless sensor networks

In this paper, we investigate the fundamental properties of data gathering in wireless sensor networks, in terms of both capacity and latency. We consider a scenario in which s(n) out of n total network nodes have to deliver data to a set of d(n) sink nodes at a constant rate λ(n, s(n), d(n)). The goal is to characterize the maximum achievable rate, and the latency in data delivery. We present a simple data gathering scheme that achieves asymptotically optimal data gathering capacity and latency with arbitrary network deployments when d(n) = 1, and for most scaling regimes of s(n) and d(n) when d(n) > 1 in case of square grid and random node deployments. Differently from most previous work, our results and the presented data gathering scheme do not sacrifice energy efficiency to the need of maximizing capacity and minimizing latency. Finally, we consider the effects of a simple form of data aggregation on data gathering performance, and show that capacity can be increased by a factor f(n) with respect to the case of no data aggregation, where f(n) is the node density. To the best of our knowledge, the ones presented in this paper are the first results showing that asymptotically optimal data gathering capacity and latency can be achieved in arbitrary networks in an energy efficient way.

[1]  Rong Zheng,et al.  Information Dissemination in Power-Constrained Wireless Networks , 2006, Proceedings IEEE INFOCOM 2006. 25TH IEEE International Conference on Computer Communications.

[2]  Donald F. Towsley,et al.  Data gathering capacity of large scale multihop wireless networks , 2008, 2008 5th IEEE International Conference on Mobile Ad Hoc and Sensor Systems.

[3]  Guoliang Xing,et al.  Integrated coverage and connectivity configuration for energy conservation in sensor networks , 2005, TOSN.

[4]  Eytan Modiano,et al.  Capacity and delay tradeoffs for ad hoc mobile networks , 2005, IEEE Trans. Inf. Theory.

[5]  Mingyan Liu,et al.  On the Many-to-One Transport Capacity of a Dense Wireless Sensor Network and the Compressibility of Its Data , 2003, IPSN.

[6]  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.

[7]  Fikret Sivrikaya,et al.  Time synchronization in sensor networks: a survey , 2004, IEEE Network.

[8]  David Tse,et al.  Mobility increases the capacity of ad-hoc wireless networks , 2001, Proceedings IEEE INFOCOM 2001. Conference on Computer Communications. Twentieth Annual Joint Conference of the IEEE Computer and Communications Society (Cat. No.01CH37213).

[9]  R. Srikant,et al.  The multicast capacity of large multihop wireless networks , 2010, TNET.

[10]  Erik D. Demaine,et al.  Anchor-Free Distributed Localization in Sensor Networks , 2003 .

[11]  Erik D. Demaine,et al.  Poster abstract: anchor-free distributed localization in sensor networks , 2003, SenSys '03.

[12]  Paolo Santi,et al.  On the Fundamental Limits of Broadcasting in Wireless Mobile Networks , 2010, 2010 Proceedings IEEE INFOCOM.

[13]  Alireza Keshavarz-Haddad,et al.  Broadcast capacity in multihop wireless networks , 2006, MobiCom '06.

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

[15]  Shaojie Tang,et al.  Multicast capacity for large scale wireless ad hoc networks , 2007, MobiCom '07.

[16]  Catherine H. Yan,et al.  Random Geometric Graph Diameter in the Unit Ball , 2006, Algorithmica.

[17]  Christian Scheideler,et al.  An O(log n) dominating set protocol for wireless ad-hoc networks under the physical interference model , 2008, MobiHoc '08.

[18]  P. Santi,et al.  Latency and Capacity Optimal Broadcasting in Wireless Multihop Networks With Arbitrary Number of Sources , 2011, IEEE Trans. Inf. Theory.

[19]  Donggang Liu,et al.  Resilient Cluster Leader Election for Wireless Sensor Networks , 2009, 2009 6th Annual IEEE Communications Society Conference on Sensor, Mesh and Ad Hoc Communications and Networks.

[20]  Paolo Santi,et al.  Approximation Algorithms for Wireless Link Scheduling With SINR-Based Interference , 2010, IEEE/ACM Transactions on Networking.

[21]  Richard J. Barton,et al.  Toward Optimal Data Aggregation in Random Wireless Sensor Networks , 2007, IEEE INFOCOM 2007 - 26th IEEE International Conference on Computer Communications.

[22]  Tarek F. Abdelzaher,et al.  Towards optimal sleep scheduling in sensor networks for rare-event detection , 2005, IPSN 2005. Fourth International Symposium on Information Processing in Sensor Networks, 2005..

[23]  Paolo Santi,et al.  Latency and Capacity Optimal Broadcasting in Wireless Multihop Networks , 2009, 2009 IEEE International Conference on Communications.

[24]  Hesham El Gamal On the scaling laws of dense wireless sensor networks: the data gathering channel , 2005, IEEE Trans. Inf. Theory.

[25]  Rudolf H. Riedi,et al.  On the Broadcast Capacity of Multihop Wireless Networks: Interplay of Power, Density and Interference , 2007, 2007 4th Annual IEEE Communications Society Conference on Sensor, Mesh and Ad Hoc Communications and Networks.