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A user-centric system architecture for residential energy consumption reduction

A user-centric system architecture for residential energy consumption reduction
A user-centric system architecture for residential energy consumption reduction

Long-term energy consumption reduction can be achieved more readily through sensible cooperation between end users and technological advancements. The DANCER project presented here proposes a user-centric residential energy management system, with the intention to achieve long-term energy related behavioural changes, thus improving the energy efficiency of modern homes. Although, it follows the same basic principles as other contemporary approaches, it focuses on minimizing the interaction of the user with the system. This is achieved through an improved feedback mechanism and a generic, policy based service that takes advantage of the modularity and generality of the software architecture. The proposed system is designed to support a variety of technologies (WiFi, Zigbee, X10), in order to ameliorate the input and output of the decision making operation. In this paper, the general outline of the DANCER system architecture and its most important components are discussed and the prototype test-bed is presented. Special consideration is given to the implementation, operation and response behaviour of the prototype.

Energy Reduction, Policy Engine, Sensors, Smart Gateway, Smart Metering, System Architecture
IEEE
Vastardis, Nikolaos
b8c703a7-e99b-4521-a08e-50ada0b24ae5
Adjrad, Mounir
97532d60-5faa-4af5-9da5-65ef32105d07
Buchanan, Kathryn
17cf4836-a600-4467-bc70-9343ad89c600
Liao, Zhining
7d08e6e4-a74b-4f06-85ca-79f2d992524f
Koch, Christian
3eb9eaca-c280-43b9-8773-5dd63731945e
Russo, Riccardo
ed0f8ac6-72df-44bb-8208-ea4eb4dff12d
Yang, Kun
549bfa5f-6ddf-4eb7-a957-7e4902705121
Ghavami, Mohammad
fa6ef5f9-0786-480a-aa15-0e9ebd855b76
Anderson, Ben
01e98bbd-b402-48b0-b83e-142341a39b2d
Dudley, Sandra
5306d4b7-f188-4d85-be62-60562f93bc90
Vastardis, Nikolaos
b8c703a7-e99b-4521-a08e-50ada0b24ae5
Adjrad, Mounir
97532d60-5faa-4af5-9da5-65ef32105d07
Buchanan, Kathryn
17cf4836-a600-4467-bc70-9343ad89c600
Liao, Zhining
7d08e6e4-a74b-4f06-85ca-79f2d992524f
Koch, Christian
3eb9eaca-c280-43b9-8773-5dd63731945e
Russo, Riccardo
ed0f8ac6-72df-44bb-8208-ea4eb4dff12d
Yang, Kun
549bfa5f-6ddf-4eb7-a957-7e4902705121
Ghavami, Mohammad
fa6ef5f9-0786-480a-aa15-0e9ebd855b76
Anderson, Ben
01e98bbd-b402-48b0-b83e-142341a39b2d
Dudley, Sandra
5306d4b7-f188-4d85-be62-60562f93bc90

Vastardis, Nikolaos, Adjrad, Mounir, Buchanan, Kathryn, Liao, Zhining, Koch, Christian, Russo, Riccardo, Yang, Kun, Ghavami, Mohammad, Anderson, Ben and Dudley, Sandra (2014) A user-centric system architecture for residential energy consumption reduction. In 2014 IEEE Online Conference on Green Communications, OnlineGreenComm 2014. IEEE.. (doi:10.1109/OnlineGreenCom.2014.7114423).

Record type: Conference or Workshop Item (Paper)

Abstract

Long-term energy consumption reduction can be achieved more readily through sensible cooperation between end users and technological advancements. The DANCER project presented here proposes a user-centric residential energy management system, with the intention to achieve long-term energy related behavioural changes, thus improving the energy efficiency of modern homes. Although, it follows the same basic principles as other contemporary approaches, it focuses on minimizing the interaction of the user with the system. This is achieved through an improved feedback mechanism and a generic, policy based service that takes advantage of the modularity and generality of the software architecture. The proposed system is designed to support a variety of technologies (WiFi, Zigbee, X10), in order to ameliorate the input and output of the decision making operation. In this paper, the general outline of the DANCER system architecture and its most important components are discussed and the prototype test-bed is presented. Special consideration is given to the implementation, operation and response behaviour of the prototype.

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More information

Published date: 28 May 2014
Additional Information: Publisher Copyright: © 2014 IEEE. Copyright: Copyright 2016 Elsevier B.V., All rights reserved.
Venue - Dates: 2014 IEEE Online Conference on Green Communications, OnlineGreenComm 2014, , Online Only, United States, 2014-11-12 - 2014-11-14
Keywords: Energy Reduction, Policy Engine, Sensors, Smart Gateway, Smart Metering, System Architecture

Identifiers

Local EPrints ID: 453574
URI: http://eprints.soton.ac.uk/id/eprint/453574
DOI: doi:10.1109/OnlineGreenCom.2014.7114423
PURE UUID: 561f5935-1841-47c9-b437-b174a888b460
ORCID for Ben Anderson: ORCID iD orcid.org/0000-0003-2092-4406

Catalogue record

Date deposited: 20 Jan 2022 17:31
Last modified: 16 Mar 2024 15:12

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Contributors

Author: Nikolaos Vastardis
Author: Mounir Adjrad
Author: Kathryn Buchanan
Author: Zhining Liao
Author: Christian Koch
Author: Riccardo Russo
Author: Kun Yang
Author: Mohammad Ghavami
Author: Ben Anderson ORCID iD
Author: Sandra Dudley

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