Multi-Level Elasticity for Wide-Area Data Streaming Systems: A Reinforcement Learning Approach

Russo, Gabriele Russo; Nardelli, Matteo; Cardellini, Valeria; Presti, Francesco Lo

doi:10.3390/a11090134

Cited by 16 publications

(6 citation statements)

References 46 publications

(101 reference statements)

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“…Moreover, no backup technique is studied. In the work in [30], it is highlighted the relevance of hierarchical and distributed architectures in novel and future IoT-based scenarios, since they improve scalability without compromising stability [30]. Although they consider a hierarchical and decentralized architecture, differently from our proposal their proposal is focused on solving the specific problem of Data Stream Processing, which is different from the FCC problem tackled in this paper, thus resulting in different problem definition, constraints and formulation.…”

Section: B Related Workmentioning

confidence: 97%

“…Indeed, these works could take advantage of our proposal, since they could benefit from deploying their proposed algorithms while delegating control and management issues to the agents to implement the solutions obtained. Moreover, proposals facing architectural aspects, focus on service-specific architectures (e.g., the works in [30] and [31]) and/or consider that roles of the devices in the different layers are known a priori or are assigned according to a less complex criteria than the one considered in our proposal; e.g., coverage range. Aligned with the trends described in the reviewed literature, our work proposes utilizing an optimization technique, i.e., Mixed Integer Linear Programming, to minimize a multi-objective function considering relevant parameters such as latency, energy and mobility; as well as a machine-learning method; i.e., by means of a k-means based algorithm.…”

Section: B Related Workmentioning

confidence: 99%

“…The solution is discarded if no backup leader is found for each cluster. Finally, the cost associated to the subnet is computed using equation 2, line 28, and the lowest cost solution found in all iterations of the k-means procedure (line 14) is considered as the solution for that subnet (lines [29][30][31].…”

Section: Influence Of Fog and Cloud Costsmentioning

confidence: 99%

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Designing an efficient clustering strategy for combined Fog-to-Cloud scenarios

Asensio

Masip-Bruin

Durán

et al. 2020

Future Generation Computer Systems

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The evolution of the Internet of Things (IoT) is imposing many distinct challenges, particularly to guarantee both wide and global systems communication, and to ensure an optimal execution of services. To that end, IoT services must make the most out of both cloud and fog computing (turning into combined fog-cloud scenarios), which indeed requires novel and efficient resource management procedures to handle such diversity of resources in a coordinated way. Most of the related works that can be found in the literature focus on resource mapping for service-specific execution in fog-cloud; however, those works assume a control and management architecture already deployed. Interestingly, few works propose algorithms to set that control architecture, necessary to execute the services and effectively implement services and resource mapping. This paper addresses that challenge by solving the problem of optimal clustering of devices located at the edge of the network offering their resources to support fog computing while defining the control and management role of each of them in the architecture, in order to ensure access to management functions in combined fog-cloud scenarios. In particular, we set out the Fog-Cloud Clustering (FCC) problem as an optimization problem, which is based on multi-objective optimization, including realistic, novel and stringent constraints; e.g., to improve the architecture's robustness by means of a device acting as a backup in the cluster. We model the FCC problem as a Mixed Integer Linear Programming (MILP) formulation, for which a lower and an upper bound on the number of required clusters is derived. We also propose a machine learning-based heuristic that provides scalable and near-optimal solutions in realistic scenarios in which, due to the high number of connected devices, solving the MILP formulation is not viable. By means of a simulation study, we demonstrate the effectiveness of the algorithms comparing its results with those of MILP formulation.

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Section: B Related Workmentioning

confidence: 97%

Section: B Related Workmentioning

confidence: 99%

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Designing an efficient clustering strategy for combined Fog-to-Cloud scenarios

Asensio

Masip-Bruin

Durán

et al. 2020

Future Generation Computer Systems

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“…Liu et al [13] propose a single-objective (end-to-end latency) model to reconfigure DSP applications based on collected statistics and Deep Neural Networks. Russo et al [21] offer a multi-objective optimisation (monetary cost and QoS violations) Q-Learning model for reconfiguration. Panerati et al [17] propose an autonomic manager using reinforcement learning algorithms and Q-learning applied to sensors and actuators to provide self-optimisation considering a multi-objective approach.…”

Section: Related Workmentioning

confidence: 99%

Multi-Objective Reinforcement Learning for Reconfiguring Data Stream Analytics on Edge Computing

Veith

Souza

Assunção

et al. 2019

Proceedings of the 48th International Conference on Parallel Processing

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There is increasing demand for handling massive amounts of data in a timely manner via Distributed Stream Processing (DSP). A DSP application is often structured as a directed graph whose vertices are operators that perform transformations over the incoming data and edges representing the data streams between operators. DSP applications are traditionally deployed on the Cloud in order to explore the virtually unlimited number of resources. Edge computing has emerged as a suitable paradigm for executing parts of DSP applications by offloading certain operators from the Cloud and placing them close to where the data is generated, hence minimising the overall time required to process data events (i.e., the end-toend latency). The operator reconfiguration consists of changing the initial placement by reassigning operators to different devices given target performance metrics. In this work, we model the operator reconfiguration as a Reinforcement Learning (RL) problem and define a multi-objective reward considering metrics regarding operator reconfiguration, and infrastructure and application improvement. Experimental results show that reconfiguration algorithms that minimise only end-to-end processing latency can have a substantial impact on WAN traffic and communication cost. The results also demonstrate that when reconfiguring operators, RL algorithms improve by over 50% the performance of the initial placement provided by state-of-the-art approaches.

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“…The paper "Multi-level elasticity for wide-area Data Streaming Systems: A reinforcement learning approach" by Russo Gabriele et al [1] addresses the issue of data stream processing (DSP) in the context of a multi cloud/fog. The reference architecture is hierarchically distributed according to the guidelines of the considered Multi-Level Elastic and Distributed DSP Framework (E2DF).…”

Section: Special Issuementioning

confidence: 99%

Special Issue on Algorithms for the Resource Management of Large Scale Infrastructures

2018

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Modern distributed systems are becoming increasingly complex as virtualization is being applied at both the levels of computing and networking. Consequently, the resource management of this infrastructure requires innovative and efficient solutions. This issue is further exacerbated by the unpredictable workload of modern applications and the need to limit the global energy consumption. The purpose of this special issue is to present recent advances and emerging solutions to address the challenge of resource management in the context of modern large-scale infrastructures. We believe that the four papers that we selected present an up-to-date view of the emerging trends, and the papers propose innovative solutions to support efficient and self-managing systems that are able to adapt, manage, and cope with changes derived from continually changing workload and application deployment settings, without the need for human supervision.

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Multi-Level Elasticity for Wide-Area Data Streaming Systems: A Reinforcement Learning Approach

Cited by 16 publications

References 46 publications

Designing an efficient clustering strategy for combined Fog-to-Cloud scenarios

Designing an efficient clustering strategy for combined Fog-to-Cloud scenarios

Multi-Objective Reinforcement Learning for Reconfiguring Data Stream Analytics on Edge Computing

Special Issue on Algorithms for the Resource Management of Large Scale Infrastructures

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