Home energy management systems: A review of modelling and complexity

Beaudin, Marc; Zareipour, Hamidreza

doi:10.1016/j.rser.2015.01.046

Cited by 401 publications

(225 citation statements)

References 113 publications

(258 reference statements)

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“…Some are described in [6] and [7], and others are similar to those set out in this paper. A HEMS, that is able to manage household appliances and lighting (by collecting consumption data), is described in [8].…”

Section: Related Literaturementioning

confidence: 99%

SmartCoM: Smart Consumption Management Architecture for Providing a User-Friendly Smart Home based on Metering and Computational Intelligence

Oliveira

Alfaia

Souto

et al. 2017

J. Microw. Optoelectron. Electromagn. Appl.

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Abstract-With advances in information technology for health and wellness, Smart Home-based solution providers using Internet of Things (IoT) technologies, have increased in importance and become accepted as an alternative means of saving energy when based on Home Energy Management Systems (HEMS). This paper defines a modern architecture (SmartCoM), which is implemented to monitor and manage residential dwellings by using IoT technologies. This involves setting out the parameters that can make interoperability possible between measurement and management , and the layers of data communication, which are the features necessary for the hardware required for monitoring and measurement. In addition, an interface is defined by a middleware layer to integrate the management of external installations and the visualization of data by means of a cloud service. The SmartCoM end-to-end architecture is defined in detail from the standpoint of the consumer and optimization strategies are employed for both the end customer and the utility. The main advantages of using SmartCoM were confirmed by the numerical results obtained from the proposed architecture. This paper ends by showing the current position of SmartCoM as well as suggesting further stages for this line of research.Index Terms-device software platforms, Internet of Things, middleware, Smart Home. I. INTRODUCTIONIn recent years, the panorama of the power systems has been subject to change following the introduction of new business models, for example, electric power distribution. These new models enable consumers to be actively involved on the basis of Smart Grid experiences. This participation makes the scenario more complex with respect to services since it raises serious challenges -for example, when integrating, software and hardware features. This is because the power systems and power companies operate in heterogeneous environments which is an essential strategic factor in ensuring a certain degree of safety (an inherent feature of the electricity sector). As well as this, there is also a need to include services that can outperform those of the traditional electricity networks. Belém, Pará, Brazil, rodrigo.alfaia@itec.ufpa.br, anderson.souto@itec.ufpa.br, marcelino@ufpa.br, rfrances@ufpa.br N. L. VijaykumarNational Institute for Space Research (INPE), São José dos Campos, São Paulo, Brazil, ZIP: 12227-010, Email: vijay.nl@inpe.br Journal of Microwaves, Optoelectronics and Electromagnetic Applications, Vol. 16, No. 3, September 2017 In general, Smart Grid can be regarded as a network that can manage electrical devices in several domains, and provide efficiency, reliability, safety and quality of services. It has a set of seven interconnected domains [2]. The first four (large-scale generation, transmission, distribution and end consumers or customers) are responsible for generation, transmission and distribution. These domains must ensure bi-directional communication between the customers and Advanced Metering Infrastructure (AMI) to provide a "full...

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Section: Related Literaturementioning

confidence: 99%

SmartCoM: Smart Consumption Management Architecture for Providing a User-Friendly Smart Home based on Metering and Computational Intelligence

Oliveira

Alfaia

Souto

et al. 2017

J. Microw. Optoelectron. Electromagn. Appl.

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“…In addition, SGs give the opportunity for consumers to operate demand response programs independently so that the optimal matching between source and load can be spread to each region of the horizontal time axis by considering consumer habits. In the beginning, demand response was supposed as a change in normal consumption demand taking into account the decrease or increase of the electrical energy production [5]. Initial demand response programs were used to control loads at peak times in the United States [6].…”

Section: Introductionmentioning

confidence: 99%

The Determination of Load Profiles and Power Consumptions of Home Appliances

Issi

Kaplan

2018

Energies

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Abstract:In recent years, the increment of distributed electricity generation based on renewable energy sources and improvement of communication technologies have caused the development of next-generation power grids known as smart grids. The structures of smart grids have bidirectional communication capability and enable the connection of energy generated from distributed sources to any point on the grid. They also support consumers in energy efficiency by creating opportunities for management of power consumption. The information on power consumption and load profiles of home appliances is essential to perform load management in the dwelling accurately. In this study, the power consumption data for all the basic home appliances, utilized in a two-person family in Çankırı, Turkey, was obtained with high resolution in one-second intervals. The detailed power consumption analysis and load profile were executed for each home appliance. The obtained data is not only the average power consumption of each appliance but also characterizes different operating modes or their cycles. In addition, the impact of these devices on home energy management studies and their standby power consumptions were also discussed. The acquired data is an important source to determine the load profile of individual home appliances precisely in home energy management studies. Although the results of this study do not completely reflect the energy consumption behavior of the people who live in this region, they can reveal the trends in load demands based on a real sample and customer consumption behavior of a typical two-person family.

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“…As energy needs are constantly arising (with the consequent necessity of upgrading or building new power facilities contributing to new considerable gasses emissions), it is too hard at the same time to merely expand power plants and to add more generator units because the conclusion would be the production of undesirable emissions (e.g. CO 2 ). Other facilities of producing energy such as nuclear power plants (apart from requiring very strict safety measures against radiation containment) introduce the danger of irreversibly polluting the environment.…”

Section: Introductionmentioning

confidence: 99%

“…Other facilities of producing energy such as nuclear power plants (apart from requiring very strict safety measures against radiation containment) introduce the danger of irreversibly polluting the environment. Consequently, reduced energy consumption schemes would help towards decreased power consumption [1] [2].…”

Section: Introductionmentioning

confidence: 99%

Reduced Ecological Footprints of Modern Facilities Introducing the Implementation of Advanced Wireless Technologies, and Human Resources’ Benefits

Chronopoulos¹,

Kosma²,

Tafiadis³

et al. 2018

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The necessity of lowering the mean power consumption of various facilities, due to the lack of their enormous future energy needs, led to an ongoing advance of various technologies. These technologies have been oriented towards the concept of a Reduced Ecological Footprint. Massive structures (such as building complexes and hospitals) have been redesigned and upgraded; many interior designs have been dramatically altered while new electronic devices are constantly being produced in order to revolutionize a long term perspective towards a "Green Planet" while they exhibit astonishing signal processing. Consequently, an enormous technology already exists which needs to be properly combined to a proposed methodology and to new ideas relevant to systems' administration through automatic wireless control. This paper intends to reduce the gap between design and realization of the aforementioned research. Consequently, the primary contribution of this research is the proposal of a complete design protocol with minimized defects relevant to Reduced Ecological Footprints of Facilities (REFF) along with its beneficial advantages relevant to providing a healthy and productive work environment. This protocol consists of four main parts which are 1) the main key points-guidelines, 2) its objectives, 3) the know-how methodology for implementation in existing installa-

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Home energy management systems: A review of modelling and complexity

Cited by 401 publications

References 113 publications

SmartCoM: Smart Consumption Management Architecture for Providing a User-Friendly Smart Home based on Metering and Computational Intelligence

SmartCoM: Smart Consumption Management Architecture for Providing a User-Friendly Smart Home based on Metering and Computational Intelligence

The Determination of Load Profiles and Power Consumptions of Home Appliances

Reduced Ecological Footprints of Modern Facilities Introducing the Implementation of Advanced Wireless Technologies, and Human Resources’ Benefits

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