# Enabling Multi-hop Forwarding in 6LoWPANs through Software-Defined   Networking

**Authors:** Giacomo Tanganelli, Antonio Virdis, Enzo Mingozzi

arXiv: 1903.07467 · 2019-03-19

## TL;DR

This paper presents a novel architecture that leverages Software Defined Networking to enable efficient multi-hop forwarding in 6LoWPANs, addressing new IoT traffic patterns and enhancing network reconfigurability.

## Contribution

It introduces a reconfigurable architecture based on SDN principles for multi-hop forwarding in 6LoWPANs, suitable for IoT industrial applications.

## Key findings

- Demonstrates feasibility through simulation and real testbed experiments.
- Achieves improved network reconfigurability and traffic handling.
- Supports both multipoint-to-point and M2M traffic patterns.

## Abstract

Wireless Sensor Networks (WSNs) play a major role in the expansion of the Internet of Things (IoT) market as they allow the deployment of low cost and low power networks possibly in large areas. The introduction of the 6LoWPAN standard allowed WSN to move into the IPv6 era, with a seamless integration of sensors into external networks. The recent application of IoT in industrial systems is now introducing new traffic patterns - machine to machine (M2M) above the others - and communication challenges that can modify the classical multipoint-to-point pattern of WSN, having the sink as the root of every communication. To solve these problems, we propose an architecture to enable an efficient and controlled multi-hop forwarding over 6LoWPANs. We base our approach on the standard 6LoWPAN protocol stack and we exploit the Software Defined Networking paradigm to achieve network reconfigurability. We evaluate the performance of our architecture in a simulated environment, with both multipoint-to-point and M2M traffic, and we demonstrate its feasibility in a real testbed.

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Source: https://tomesphere.com/paper/1903.07467