Litcius/Paper detail

Dynamic Decentralization Domains for the Internet of Things

Gianluca Aguzzi, Roberto Casadei, Danilo Pianini, Mirko Viroli

2022IEEE Internet Computing18 citationsDOIOpen Access PDF

Abstract

The Internet of Things (IoT) and edge computing are fostering a future of ecosystems hosting complex decentralized computations that are deeply integrated with our very dynamic environments. Digitalized buildings, communities of people, and cities will be the next-generation “hardware and platform,” counting myriads of interconnected devices, on top of which intrinsically distributed computational processes will run and self-organize. They will spontaneously spawn, diffuse to pertinent logical/physical regions, cooperate and compete, opportunistically summon required resources, collect and analyze data, compute results, trigger distributed actions, and eventually decay. What would a programming model for such ecosystems look like? Based on research findings on self-adaptive/self-organizing systems, this article proposes design abstractions based on “dynamic decentralization domains”: regions of space opportunistically formed to support situated recognition and action. We embody the approach into a Scala application program interface (API) enacting distributed execution and show its applicability in a case study of environmental monitoring.

Topics & Concepts

Computer scienceDistributed computingSituatedDecentralizationThe InternetComputationMiddleware (distributed applications)Internet of ThingsComputer securityWorld Wide WebArtificial intelligenceProgramming languageLawPolitical scienceModular Robots and Swarm IntelligenceDistributed systems and fault toleranceAdvanced Software Engineering Methodologies