HaLert: A Resilient Smart City Architecture for Post-Disaster Based on Wi-Fi HaLow Mesh and SDN

TL;DR

HaLert is a resilient smart city communication architecture utilizing Wi-Fi HaLow mesh and SDN, enabling effective post-disaster emergency messaging with demonstrated stability and high message success rates in real urban scenarios.

Contribution

This work introduces HaLert, a novel resilient smart city architecture combining Wi-Fi HaLow mesh and SDN for emergency communication, tested successfully in real urban environments.

Findings

Wi-Fi HaLow network maintained stability despite obstacles and terrain.

Average latency ranged from 15 to 54.8 ms, with stable throughput.

LoRa network achieved a 94.96% message success rate.

Abstract

Events such as catastrophes and disasters are, in most cases, unpredictable. Consequently, reusing existing infrastructures to develop alternative communication strategies after disasters is essential to minimise the impact of these events on the population's ability to communicate and promptly receive alerts from authorities. In this context, the emergence of smart cities, characterised by dense and geographically distributed IoT networks, presents significant potential for such reuse. This work proposes HaLert, a resilient architecture for smart cities based on a Wi-Fi HaLow IEEE 802.11s mesh network, whose resources can be readily reallocated to support a emergency communication system to exchange messages (including text, location, image, audio, and video) between citizens, authorities, and between both parties. To facilitate remote monitoring and configuration of the network, the architecture incorporates the SDN (Software-Defined Networking) paradigm, supported by a LoRa controlled flooding mesh network. A prototype was developed based on this architecture and tested in a real urban scenario comprising both indoor and outdoor environments. The results demonstrated that, despite the significant impact of obstacles, lack of line-of-sight, and terrain slopes on the latency (average latency between 15 and 54.8 ms) and throughput (upload bitrates between 134 and 726 Kbps and download bitrates between 117 and 682 Kbps) of the Wi-Fi HaLow network, it remained stable and resilient, successfully providing all functionalities associated with the HaLert architecture. The tests conducted on the LoRa network revealed a high average message success rate of 94.96%.