DARES: An Asynchronous Distributed Recommender System Using Deep Reinforcement Learning

Shi, Bichen; Τράγος, Ηλίας; Özsoy, Makbule Gülçin; Dong, Ruihai; Hurley, Neil; Smyth, Barry; Lawlor, Aonghus

doi:10.1109/access.2021.3087406

Cited by 6 publications

(1 citation statement)

References 38 publications

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“…AFDRL: AFDRL is introduced to overcome the shortcomings of synchronous FDRL [13]. AFDRL allows devices to defer the uploading of inadequately trained local models, and only converged models are uploaded and utilized to train the global model, which reduces the waiting delay and total queuing delay.…”

Section: A Fundamentals Of Afdrlmentioning

confidence: 99%

Asynchronous FDRL-Based Low-Latency Computation Offloading for Integrated Terrestrial and Non-Terrestrial Power IoT

Li,

Zhang,

Wang

et al. 2023

IEEE Network

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Integrated terrestrial and non-terrestrial power internet of things (IPIoT) has emerged as a paradigm shift to three-dimensional vertical communication networks for power systems in the 6G era. Computation offloading plays key roles in enabling real-time data processing and analysis for electric services. However, computation offloading in IPIoT still faces challenges of coupling between task offloading and computation resource allocation, resource heterogeneity and dynamics, and degraded model training caused by electromagnetic interference (EMI). In this article, we propose an asynchronous federated deep reinforcement learning (AFDRL)-based computation offloading framework for IPIoT, where models are uploaded asynchronously for federated averaging to relieve network congestion and improve global model training. Then, we propose Asynchronous fedeRated deep reinforcemenT learnIng-baSed low-laTency computation offloading algorithm (ARTIST) to realize low-latency computation offloading through joint optimization of task offloading and computation resource allocation. Particularly, ARTIST adopts EMI-aware federated set determination to remove aberrant local models from federated averaging and improve training accuracy. Next, a case study is developed to validate the excellent performance of ARTIST in reducing task offloading and total queuing delays.Index Terms-6G, integrated terrestrial and non-terrestrial power internet of things, computation offloading, asynchronous federated deep reinforcement learning, electromagnetic interference awareness I. INTRODUCTIONPower internet of things (PIoT) provides comprehensive interconnection among human, machine, and things through all the aspects of power generation, transmission, distribution, and consumption. PIoT requires low latency, flexible coverage, and high security to support delay-sensitive power services and connection of external devices into the grid. However, in

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Section: A Fundamentals Of Afdrlmentioning

confidence: 99%

Asynchronous FDRL-Based Low-Latency Computation Offloading for Integrated Terrestrial and Non-Terrestrial Power IoT

Li,

Zhang,

Wang

et al. 2023

IEEE Network

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A Recommender System for EOSC. Challenges and Possible Solutions

Wolski

Martyn

Walter

2022

Lecture Notes in Business Information Processing

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An academic recommender system on large citation data based on clustering, graph modeling and deep learning

Stergiopoulos,

Vassilakopoulos,

Tousidou

et al. 2024

Knowl Inf Syst

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Recommendation (recommender) systems (RS) have played a significant role in both research and industry in recent years. In the area of academia, there is a need to help researchers discover the most appropriate and relevant scientific information through recommendations. Nevertheless, we argue that there is a major gap between academic state-of-the-art RS and real-world problems. In this paper, we present a novel multi-staged RS based on clustering, graph modeling and deep learning that manages to run on a full dataset (scientific digital library) in the magnitude of millions users and items (papers). We run several tests (experiments/evaluation) as a means to find the best approach regarding the tuning of our system; so, we present and compare three versions of our RS regarding recall and NDCG metrics. The results show that a multi-staged RS that utilizes a variety of techniques and algorithms is able to face real-world problems and large academic datasets. In this way, we suggest a way to close or minimize the gap between research and industry value RS.

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DARES: An Asynchronous Distributed Recommender System Using Deep Reinforcement Learning

Cited by 6 publications

References 38 publications

Asynchronous FDRL-Based Low-Latency Computation Offloading for Integrated Terrestrial and Non-Terrestrial Power IoT

Asynchronous FDRL-Based Low-Latency Computation Offloading for Integrated Terrestrial and Non-Terrestrial Power IoT

A Recommender System for EOSC. Challenges and Possible Solutions

An academic recommender system on large citation data based on clustering, graph modeling and deep learning

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