A Smart Autonomous Time- and Frequency-Domain Analysis Current Sensor-Based Power Meter Prototype Developed over Fog-Cloud Analytics for Demand-Side Management

Chen, Yung-Yao; Lin, Yu‐Hsiu

doi:10.3390/s19204443

Cited by 14 publications

(15 citation statements)

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“…Recently we find fog/edge computing-based EMS designs where authors claim that these systems provide benefits of local data processing, cache data management, local resource pooling, load balancing, and delay reduction. [10][11][12] One of the notable works is by Yaghmaee et al who present a combined fog-and-cloud-based system, which utilizes both fog nodes (for local processing) and cloud servers (for reliable data storage and high computing power). They implemented their system on an IoT board with Wi-Fi communication over Constrained Application Protocol (CoAP) and used ThingSpeak open source cloud service.…”

Section: Literature Reviewmentioning

confidence: 99%

Internet of things and cloud computing‐based energy management system for demand side management in smart grid

Hashmi¹,

2020

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Section: Literature Reviewmentioning

confidence: 99%

Internet of things and cloud computing‐based energy management system for demand side management in smart grid

Hashmi¹,

2020

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“…The third component is the use of ICT equipment, which can be any type of smart metering devices, such as real-time energy monitoring, reporting and automation devices [42,43], as well as building management systems. In order to generate the daily BAU scenario for each household, the forecasted values of energy consumption are required.…”

Section: Sensor-based Energy Savingsmentioning

confidence: 99%

From Intelligent Energy Management to Value Economy through a Digital Energy Currency: Bahrain City Case Study

Marinakis

Doukas

Koasidis

et al. 2020

Sensors

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The transition of the energy system into a more efficient state requires innovative ideas to finance new schemes and engage people into adjusting their behavioural patterns concerning consumption. Effective energy management combined with Information and Communication Technologies (ICTs) open new opportunities for local and regional authorities, but also for energy suppliers, utilities and other obligated parties, or even energy cooperatives, to implement mechanisms that allow people to become more efficient either by producing and trading energy or by reducing their energy consumption. In this paper, a novel framework is proposed connecting energy savings with a digital energy currency. This framework builds reward schemes where the energy end-users could benefit financially from saving energy, by receiving coins according to their real consumption compared to the predicted consumption if no actions were to take place. A pilot appraisal of such a scheme is presented for the case of Bahrain, so as to simulate the behaviour of the proposed framework in order for it to become a viable choice for intelligent energy management in future action plans.

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“…The preliminaries regarding ANNs and GAs are outlined in Sections 2. feed-forward multi-layer ANN has, the more accurate the neural network is [12]. Deep Neural Networks (NNs) having multiple hidden layers [34][35][36] can be employed, over fogcloud analytics [2,37,38], for NILM in this work. The employed feed-forward ANN, which is structured…”

Section: Nilm Based On a Parallel Ga-embodied Ann To Fully-nonintrusimentioning

confidence: 99%

“…Deep Neural Networks (NNs) having multiple hidden layers [34][35][36] can be employed, over fog-cloud analytics [2,37,38], for NILM in this work. The employed feed-forward ANN, which is structured by three different types of layers including input, hidden, and output layers consists of an interconnected group of artificial neurons with trainable weight coefficients, v qj and w iq , in Figure 4.…”

Section: Gamentioning

confidence: 99%

“…Deep NNs in deep learning have become more attractive AI than ANNs in recent years. In the future, deep NNs having many multiple hidden layers will be investigated and used over fog-cloud analytics [2,37,38] by the developed parallel GA-embodied ANN for NILM in Demand-Side Management (DSM), where distributed GPU (Graphics Processing Unit) computing can be configured to run parallel evolutionary computing to meta-heuristically train a deep NN across multiple CPUs and GPUs on a single computer or a cluster of multiple computers. Acknowledgments: The author would like to sincerely thank the reviewers for their valuable comments and suggestions on this work.…”

Section: Acknowledgmentsmentioning

confidence: 99%

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A Parallel Evolutionary Computing-Embodied Artificial Neural Network Applied to Non-Intrusive Load Monitoring for Demand-Side Management in a Smart Home: Towards Deep Learning

Lin

2020

Sensors

Self Cite

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Non-intrusive load monitoring (NILM) is a cost-effective approach that electrical appliances are identified from aggregated whole-field electrical signals, according to their extracted electrical characteristics, with no need to intrusively deploy smart power meters (power plugs) installed for individual monitored electrical appliances in a practical field of interest. This work addresses NILM by a parallel Genetic Algorithm (GA)-embodied Artificial Neural Network (ANN) for Demand-Side Management (DSM) in a smart home. An ANN’s performance in terms of classification accuracy depends on its training algorithm. Additionally, training an ANN/deep NN learning from massive training samples is extremely computationally intensive. Therefore, in this work, a parallel GA has been conducted and used to integrate meta-heuristics (evolutionary computing) with an ANN (neurocomputing) considering its evolution in a parallel execution relating to load disaggregation in a Home Energy Management System (HEMS) deployed in a real residential field. The parallel GA that involves iterations to excessively cost its execution time for evolving an ANN learning model from massive training samples to NILM in the HEMS and works in a divide-and-conquer manner that can exploit massively parallel computing for evolving an ANN and, thus, reduce execution time drastically. This work confirms the feasibility and effectiveness of the parallel GA-embodied ANN applied to NILM in the HEMS for DSM.

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A Smart Autonomous Time- and Frequency-Domain Analysis Current Sensor-Based Power Meter Prototype Developed over Fog-Cloud Analytics for Demand-Side Management

Cited by 14 publications

References 55 publications

Internet of things and cloud computing‐based energy management system for demand side management in smart grid

Internet of things and cloud computing‐based energy management system for demand side management in smart grid

From Intelligent Energy Management to Value Economy through a Digital Energy Currency: Bahrain City Case Study

A Parallel Evolutionary Computing-Embodied Artificial Neural Network Applied to Non-Intrusive Load Monitoring for Demand-Side Management in a Smart Home: Towards Deep Learning

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