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Autori principali: Zaland, Obaidullah, Nguyen, Chanh, Pokorny, Florian T., Bhuyan, Monowar
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2507.17903
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author Zaland, Obaidullah
Nguyen, Chanh
Pokorny, Florian T.
Bhuyan, Monowar
author_facet Zaland, Obaidullah
Nguyen, Chanh
Pokorny, Florian T.
Bhuyan, Monowar
contents Federated Learning (FL) is an emerging distributed machine learning paradigm, where the collaborative training of a model involves dynamic participation of devices to achieve broad objectives. In contrast, classical machine learning (ML) typically requires data to be located on-premises for training, whereas FL leverages numerous user devices to train a shared global model without the need to share private data. Current robotic manipulation tasks are constrained by the individual capabilities and speed of robots due to limited low-latency computing resources. Consequently, the concept of cloud robotics has emerged, allowing robotic applications to harness the flexibility and reliability of computing resources, effectively alleviating their computational demands across the cloud-edge continuum. Undoubtedly, within this distributed computing context, as exemplified in cloud robotic manipulation scenarios, FL offers manifold advantages while also presenting several challenges and opportunities. In this paper, we present fundamental concepts of FL and their connection to cloud robotic manipulation. Additionally, we envision the opportunities and challenges associated with realizing efficient and reliable cloud robotic manipulation at scale through FL, where researchers adopt to design and verify FL models in either centralized or decentralized settings.
format Preprint
id arxiv_https___arxiv_org_abs_2507_17903
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Federated Learning for Large-Scale Cloud Robotic Manipulation: Opportunities and Challenges
Zaland, Obaidullah
Nguyen, Chanh
Pokorny, Florian T.
Bhuyan, Monowar
Machine Learning
Federated Learning (FL) is an emerging distributed machine learning paradigm, where the collaborative training of a model involves dynamic participation of devices to achieve broad objectives. In contrast, classical machine learning (ML) typically requires data to be located on-premises for training, whereas FL leverages numerous user devices to train a shared global model without the need to share private data. Current robotic manipulation tasks are constrained by the individual capabilities and speed of robots due to limited low-latency computing resources. Consequently, the concept of cloud robotics has emerged, allowing robotic applications to harness the flexibility and reliability of computing resources, effectively alleviating their computational demands across the cloud-edge continuum. Undoubtedly, within this distributed computing context, as exemplified in cloud robotic manipulation scenarios, FL offers manifold advantages while also presenting several challenges and opportunities. In this paper, we present fundamental concepts of FL and their connection to cloud robotic manipulation. Additionally, we envision the opportunities and challenges associated with realizing efficient and reliable cloud robotic manipulation at scale through FL, where researchers adopt to design and verify FL models in either centralized or decentralized settings.
title Federated Learning for Large-Scale Cloud Robotic Manipulation: Opportunities and Challenges
topic Machine Learning
url https://arxiv.org/abs/2507.17903