short-paper

Improving gossiping performance by means of local topology information

Authors:

Gabriele Gianini,

Mulugeta LibsieAuthors Info & Claims

MEDES '15: Proceedings of the 7th International Conference on Management of computational and collective intElligence in Digital EcoSystems

Pages 142 - 147

https://doi.org/10.1145/2857218.2857252

Published: 25 October 2015 Publication History

Abstract

In unstructured networks, gossiping protocols prescribe that a message, received by a node, is not forwarded with certainty to all its neighbors (as happens in flooding protocols), but only with some finite probability. Typically, in order to make the protocol adaptive, the packet forwarding probability is computed on the fly, as a function of the current node's degree, taken as an indicator of the node's capability of propagating information. This approach improves over flooding protocols, by reducing the traffic overhead, however it is plagued by a problem called early gossip termination, which occurs when the information propagation stops, before the message has reached all the intended target nodes. In the present work, we argue that early gossip termination takes place because the node degree is an inaccurate estimator of the information propagation capability of the node. Specifically: in those cases where this capability happens to be overestimated, the forwarding probability gets set to an insufficient value, which causes information propagation to fade out too early. We propose an approach relying on two interrelated prescriptions, which, being based on the local topological structure of the network, help in better quantifying the information propagation capability of a node. The first prescription consists in using, in place of the actual node degree, an effective node degree, defined on the basis of the nearest neighbors' degree information. The second prescription consists in taking into account the node clustering coefficient to identify special topological situations, which deserve specific treatment. We validated our approach by simulation, using ns2 in several operational scenarios: the results show that the approach can yield significant performance improvements.

References

[1]

B. Williams and T. Camp, "Comparison of Broadcasting Techniques for Mobile Ad-hoc Networks", ACM Symposium on Mobile Networking and Computing (MOBIHOC'02), 2002.

Digital Library

[2]

W. Peng and X. Lu, "On the Reduction of Broadcast Redundancy in Mobile Ad-hoc Networks". ACM Symposium on Mobile Ad Hoc Networking & Computing (MobiHoc'00), 2000.

Digital Library

[3]

K. Akkaya and M. Younis, "A Survey on Routing Protocols for Wireless Sensor Networks", In Ad-hoc Networks, 2005.

[4]

A. Maashri and M. Ould-Khaoua, "Performance Analysis of MANET Routing Protocols in the Presence of Self-Similar Traffic", In Proceedings of the 31st IEEE Conference on Local Computer Networks, 2006.

[5]

S. Tyagi and R. Chauhan, "Performance Analysis of Proactive and Reactive Routing Protocols for Ad hoc Networks", International Journal of Computer Applications (0975 -- 8887), Vol. 1, No. 14, 2010.

[6]

Y. Tseng, S. Ni, and E. Shih, "Adaptive Approaches to Relieving Broadcast Storms in a Wireless Multihop Mobile Ad-hoc Network", In Proceedings of the 21st Conference on Distributed Computing Systems (ICDCS'01), 2001.

Digital Library

[7]

D. Scott and A. Yasinsac, "Dynamic Probabilistic Retransmission in Ad-hoc Networks", In Proceedings of the Conference on Wireless Networks (ICWN'04), 2004.

[8]

Z. Haas, J. Halpern, and L. Li, "Gossip-based Ad-hoc Routing", INFOCOM, 2002.

[9]

Z. Haas, J. Halpern, and L. Li, "Gossip-based Ad-hoc Routing", EEE/ACM Transactions on Networking, 2006.

Digital Library

[10]

Watts, Duncan J. and Steven H. Strogatz, "Collective dynamics of 'small-world-networks." Nature 393.6684 (1998), 1998.

[11]

J. Hardiman, L. Katzir, "Estimating Clustering Coefficients and Size of Social Networks via Random Walk", International World Wide Web Conference Committee (IW3C2), 2013.

Digital Library

[12]

O. Alex, J. Georgia, "Faster Clustering Coefficient Using Vertex Covers", Social computing (SocialCom), International Conference, 2013.

Digital Library

[13]

K. Ruohonen, "Graph Theory", Journal of Graph Theory, Vol. 72, Issue 3, pp. 247--266, 2013.

[14]

J. Bondy and U. Murty, "Graph Theory with Application", Tutte Seminar, Department of Combinatorics and Optimization, 2005.

[15]

S. Nadiv and A. Vázquez, "Network Clustering Coefficient without Degree-correlation Biases", Phys. Rev. E 71, 2005.

[16]

J. Saramäki, M. Kivelä, J. Pekka, K. Kaski, and János Kertész, "Generalization of the Clustering Coefficient to Weighted Complex Networks, Physical Review E 75 2007.

[17]

D. Ediger, K. Jiang, J. Riedy, and D. Bader, "Massive Streaming Data Analytics: A Case Study with Clustering Coefficients", Parallel & Distributed Processing, Workshops and PhD Forum (IPDPSW), 2010 IEEE International Symposium, 2010.

[18]

B. Tabak, M. Takami, J. Rocha, and D. Cajueiro, "Directed Clustering Coefficient as a Measure of Systemic Risk in Complex Banking Networks", "Banco Central do, Brasil", 2011.

[19]

P. Zhang, J. Wang, X. Li, M. Li, Z. Di, and Y. Fan, "Clustering Coefficient and Community Structure of Bipartite Networks", Physica A, 2003.

[20]

N. Mhala 1 and N. Choudhari, "An Implementation Possibilities for AODV Routing Protocol in Real World", International Journal of Distributed and Parallel Systems (IJDPS), 2010.

[21]

E. Perkins, E. Royer, and S. Das, "Ad-hoc On-Demand Distance Vector (AODV) Routing", 4th IEEE Workshop on Mobile Computing System and Applications, 2003.

Digital Library

[22]

A. Khandakar, "Step by Step Procedural Comparison of DSR, AODV and DSDV Routing Protocols", 4th International Conference on Computer Engineering and Technology (ICCET 2012), 2012.

[23]

S. Ade 1 and P. Tijare, "Performance Comparison of AODV, DSDV, OLSR and DSR Routing Protocols in Mobile Ad Hoc Networks", International Journal of Information Technology and Knowledge Management, 2010.

Cited By

Babbar HRani SSingh AGianini GDamiani ESilvestri CIvanovic MChbeir RManolopoulos Y(2022)A Multiple-Path Routing Model for Quality of Service in Software Defined NetworkingProceedings of the 14th International Conference on Management of Digital EcoSystems10.1145/3508397.3564841(74-79)Online publication date: 19-Oct-2022
https://dl.acm.org/doi/10.1145/3508397.3564841
Kifle DGianini GLibsie M(2019)Improving Probabilistic Flooding Using Topological Indexes2019 15th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS)10.1109/SITIS.2019.00067(376-382)Online publication date: Nov-2019
https://doi.org/10.1109/SITIS.2019.00067
Kifle DGianini GLibsie MMüller PMostefaoui A(2018)Local Topology Aware Probabilistic RoutingProceedings of the 14th ACM International Symposium on QoS and Security for Wireless and Mobile Networks10.1145/3267129.3267144(70-76)Online publication date: 25-Oct-2018
https://dl.acm.org/doi/10.1145/3267129.3267144

Index Terms

Improving gossiping performance by means of local topology information
1. Networks
  1. Network protocols
    1. Network layer protocols
      1. Routing protocols

Recommendations

Local Topology Aware Probabilistic Routing
Q2SWinet'18: Proceedings of the 14th ACM International Symposium on QoS and Security for Wireless and Mobile Networks

Gossip-based packet forwarding is used in unstructured networks is to reduce traffic overhead in dense networks and to minimize early gossip termination in sparse networks. Unlike in flooding, where packets are forwarded to all the neighbors, in Gossip-...
Adaptive topology based gossiping in VANETs using position information
MSN'07: Proceedings of the 3rd international conference on Mobile ad-hoc and sensor networks

Gossiping is a lightweight and simple technique for information dissemination in many application domains, be it in Wireless Sensor Networks (WSNs), Mobile Ad-hoc Networks (MANETs), or Vehicular Ad-hoc Networks (VANETs). Much research has been conducted ...
Improving Probabilistic Route Discovery in Mobile Ad Hoc Networks
LCN '07: Proceedings of the 32nd IEEE Conference on Local Computer Networks

Conventional on-demand route discovery methods in Mobile Ad hoc Networks (MANET) employ blind flooding, where a mobile node blindly rebroadcasts received Route Request (RREQ) packets until a route to a particular destination is established. This can ...

Comments

Please enable JavaScript to view thecomments powered by Disqus.

Information & Contributors

Information

Published In

cover image ACM Other conferences

MEDES '15: Proceedings of the 7th International Conference on Management of computational and collective intElligence in Digital EcoSystems

October 2015

271 pages

ISBN:9781450334808

DOI:10.1145/2857218

Copyright © 2015 ACM.

Permission to make digital or hard copies of all or part of this work for personal or classroom use is granted without fee provided that copies are not made or distributed for profit or commercial advantage and that copies bear this notice and the full citation on the first page. Copyrights for components of this work owned by others than the author(s) must be honored. Abstracting with credit is permitted. To copy otherwise, or republish, to post on servers or to redistribute to lists, requires prior specific permission and/or a fee. Request permissions from [email protected].

Sponsors

The French Chapter of ACM Special Interest Group on Applied Computing
IFSP: Federal Institute of São Paulo

In-Cooperation

SIGAPP: ACM Special Interest Group on Applied Computing

Publisher

Association for Computing Machinery

New York, NY, United States

Publication History

Published: 25 October 2015

Permissions

Request permissions for this article.

Request Permissions

Check for updates

Author Tags

Qualifiers

Short-paper

Conference

MEDES '15

Sponsor:

IFSP

MEDES '15: The 7th International Conference on Management of computational and collective IntElligence in Digital EcoSystems

October 25 - 29, 2015

Caraguatatuba, Brazil

Acceptance Rates

MEDES '15 Paper Acceptance Rate 13 of 64 submissions, 20%;

Overall Acceptance Rate 267 of 682 submissions, 39%

Contributors

Other Metrics

View Article Metrics

Bibliometrics & Citations

Bibliometrics

Article Metrics

3
Total Citations
View Citations
40
Total Downloads

Downloads (Last 12 months)1
Downloads (Last 6 weeks)0

Reflects downloads up to 24 Nov 2024

Other Metrics

View Author Metrics

Citations

Cited By

Babbar HRani SSingh AGianini GDamiani ESilvestri CIvanovic MChbeir RManolopoulos Y(2022)A Multiple-Path Routing Model for Quality of Service in Software Defined NetworkingProceedings of the 14th International Conference on Management of Digital EcoSystems10.1145/3508397.3564841(74-79)Online publication date: 19-Oct-2022
https://dl.acm.org/doi/10.1145/3508397.3564841
Kifle DGianini GLibsie M(2019)Improving Probabilistic Flooding Using Topological Indexes2019 15th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS)10.1109/SITIS.2019.00067(376-382)Online publication date: Nov-2019
https://doi.org/10.1109/SITIS.2019.00067
Kifle DGianini GLibsie MMüller PMostefaoui A(2018)Local Topology Aware Probabilistic RoutingProceedings of the 14th ACM International Symposium on QoS and Security for Wireless and Mobile Networks10.1145/3267129.3267144(70-76)Online publication date: 25-Oct-2018
https://dl.acm.org/doi/10.1145/3267129.3267144

View Options

Login options

Check if you have access through your login credentials or your institution to get full access on this article.

Full Access

Get this Publication

View options

PDF

View or Download as a PDF file.

eReader

View online with eReader.

Media

Figures

Other

Tables

View Table of Contents