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Autori principali: Thakur, Dipanwita, Guzzo, Antonella, Fortino, Giancarlo, Piccialli, Francesco
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2409.12626
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author Thakur, Dipanwita
Guzzo, Antonella
Fortino, Giancarlo
Piccialli, Francesco
author_facet Thakur, Dipanwita
Guzzo, Antonella
Fortino, Giancarlo
Piccialli, Francesco
contents The development of AI applications, especially in large-scale wireless networks, is growing exponentially, alongside the size and complexity of the architectures used. Particularly, machine learning is acknowledged as one of today's most energy-intensive computational applications, posing a significant challenge to the environmental sustainability of next-generation intelligent systems. Achieving environmental sustainability entails ensuring that every AI algorithm is designed with sustainability in mind, integrating green considerations from the architectural phase onwards. Recently, Federated Learning (FL), with its distributed nature, presents new opportunities to address this need. Hence, it's imperative to elucidate the potential and challenges stemming from recent FL advancements and their implications for sustainability. Moreover, it's crucial to furnish researchers, stakeholders, and interested parties with a roadmap to navigate and understand existing efforts and gaps in green-aware AI algorithms. This survey primarily aims to achieve this objective by identifying and analyzing over a hundred FL works, assessing their contributions to green-aware artificial intelligence for sustainable environments, with a specific focus on IoT research. It delves into current issues in green federated learning from an energy-efficient standpoint, discussing potential challenges and future prospects for green IoT application research.
format Preprint
id arxiv_https___arxiv_org_abs_2409_12626
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Green Federated Learning: A new era of Green Aware AI
Thakur, Dipanwita
Guzzo, Antonella
Fortino, Giancarlo
Piccialli, Francesco
Machine Learning
The development of AI applications, especially in large-scale wireless networks, is growing exponentially, alongside the size and complexity of the architectures used. Particularly, machine learning is acknowledged as one of today's most energy-intensive computational applications, posing a significant challenge to the environmental sustainability of next-generation intelligent systems. Achieving environmental sustainability entails ensuring that every AI algorithm is designed with sustainability in mind, integrating green considerations from the architectural phase onwards. Recently, Federated Learning (FL), with its distributed nature, presents new opportunities to address this need. Hence, it's imperative to elucidate the potential and challenges stemming from recent FL advancements and their implications for sustainability. Moreover, it's crucial to furnish researchers, stakeholders, and interested parties with a roadmap to navigate and understand existing efforts and gaps in green-aware AI algorithms. This survey primarily aims to achieve this objective by identifying and analyzing over a hundred FL works, assessing their contributions to green-aware artificial intelligence for sustainable environments, with a specific focus on IoT research. It delves into current issues in green federated learning from an energy-efficient standpoint, discussing potential challenges and future prospects for green IoT application research.
title Green Federated Learning: A new era of Green Aware AI
topic Machine Learning
url https://arxiv.org/abs/2409.12626