# Stable Desynchronization for Wireless Sensor Networks: (I) Concepts and   Algorithms

**Authors:** Supasate Choochaisri, Kittipat Apicharttrisorn, Chalermek, Intanagonwiwat

arXiv: 1704.07002 · 2017-04-25

## TL;DR

This paper introduces M-DWARF, a novel low-complexity desynchronization algorithm for wireless sensor networks that ensures fast convergence, high stability, and fair channel utilization, addressing multi-hop and hidden terminal issues.

## Contribution

It presents M-DWARF, the first desynchronization algorithm with stability analysis for WSNs, improving resource sharing and solving hidden terminal problems using artificial force fields.

## Key findings

- M-DWARF achieves fast convergence and high stability.
- It maintains channel utilization fairness.
- It effectively solves hidden terminal problems in multi-hop networks.

## Abstract

Desynchronization is one of the primitive services for complex networks because it arranges nodes to take turns accessing a shared resource. TDMA is a practical application of desynchronization because it allows node to share a common medium. In this paper, we propose a novel desynchronization algorithm using artificial force field called Multi-hop Desynchronization With an ARtificial Force field or M-DWARF and use it to solve TDMA problems in wireless sensor networks (WSNs). M-DWARF solves hidden terminal problems in multi-hop networks by using relative time relaying and improves resource utilization by employing force absorption. M-DWARF is suitable for use in WSNs because of its low complexity and autonomous operations. We implement M-DWARF using TinyOS and experiment it on both TelosB motes and TOSSIM. From our investigation, M-DWARF is the only desynchronization algorithm that achieves fast convergence with high stability, while maintaining channel utilization fairness. Moreover, we are the first to provide a stability analysis using dynamical systems and to prove that M-DWARF is stable at equilibrium. (This paper is the first part of the series Stable Desynchronization for Wireless Sensor Networks - (I) Concepts and Algorithms (II) Performance Evaluation (III) Stability Analysis)

## Full text

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## Figures

30 figures with captions in the complete paper: https://tomesphere.com/paper/1704.07002/full.md

## References

34 references — full list in the complete paper: https://tomesphere.com/paper/1704.07002/full.md

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Source: https://tomesphere.com/paper/1704.07002