Emergency communications leveraging decentralized swarm computing
Proceedings of Cyber-Physical Systems and Internet of Things Week 2023, 2023•dl.acm.org
Reliable and ubiquitous communications, offering high data rates, low latency and
supporting large numbers of connected devices, are critical requirements for modern
emergency rescue missions. Multiple teams of First Responders, operating at remote areas,
on rough terrain or under harsh conditions (eg wildfires, earthquakes, flooding etc.) need
seamless connectivity to send/receive mission data and organize their operations.
Decentralized swarm computing architectures offer a wide range of capabilities to enhance …
supporting large numbers of connected devices, are critical requirements for modern
emergency rescue missions. Multiple teams of First Responders, operating at remote areas,
on rough terrain or under harsh conditions (eg wildfires, earthquakes, flooding etc.) need
seamless connectivity to send/receive mission data and organize their operations.
Decentralized swarm computing architectures offer a wide range of capabilities to enhance …
Abstract
Reliable and ubiquitous communications, offering high data rates, low latency and supporting large numbers of connected devices, are critical requirements for modern emergency rescue missions. Multiple teams of First Responders, operating at remote areas, on rough terrain or under harsh conditions (e.g. wildfires, earthquakes, flooding etc.) need seamless connectivity to send/receive mission data and organize their operations. Decentralized swarm computing architectures offer a wide range of capabilities to enhance and accelerate edge processing for critical use case scenarios. This paper presents a converged approach on swarm computing and intelligence using Decentralized Autonomous Organizations for emergency communications, and how a swarm of drones can leverage different edge accelerators for different applications.
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