LEY!: persuasive pervasive gaming on domestic energy consumption-awareness (original) (raw)
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Persuasive technologies can be useful to modify behaviors related to energy usage. In this paper, we present the PowerHouse a computer game designed to influence behaviors associated with energy use and promote an energy-aware lifestyle among teenagers. This prototype game aims to influence a set of target activities in the home using several persuasive techniques. Employing the format of a reality TV show (docu soap), the game informs implicitly and explicitly about various energy-efficient actions. We discuss our overall game design and its advantages and disadvantages in relation to the methods we have employed in the game.
2006
Persuasive technologies can be useful to modify behaviors related to energy usage. In this paper, we present the PowerHouse a computer game designed to influence behaviors associated with energy use and promote an energy-aware lifestyle among teenagers. This prototype game aims to influence a set of target activities in the home using several persuasive techniques. Employing the format of a reality TV show (docu soap), the game informs implicitly and explicitly about various energy-efficient actions. We discuss our overall game design and its advantages and disadvantages in relation to the methods we have employed in the game.
Persuasive design of a mobile energy conservation game with direct feedback and social cues
Breaking New Ground: …, 2009
Pervasive gaming has the potential of transforming the home into a persuasive environment in which the user can learn about appliances and their electricity consumption. Power Explorer is a mobile game with a special sensing approach that provides real-time electricity measurements and feedback when the user switches on and off devices in the home. The game was developed based on persuasive principles to provide an engaging means to learn about energy with positive and negative feedback and social feedback from peers on real energy actions in the home. We present the design and rationale of this game and discuss how pervasive games can be viewed from a persuasive and learning point of view.
Gaming for energy conservation in households
… The Neth erland s (ed. R …, 2010
This paper presents a study about a 'serious game', "Energy Battle", as a means to influence energy-related behavior in households. The Energy Battle is designed to engage home occupants in a fun way in energy conservation via a competition with other households. The challenge enabled home occupants to gain insight in their energy consumption and actively involved them in reducing energy consumption. The energy reduction was registered online and information and tips on the online platform were given to help the participants to reduce energy consumption. The game is tested in 20 student-households in the city of Rotterdam.
International journal on advances in intelligent systems, 2015
Ener-SCAPE is a novel work in progress software framework made up of a persuasive game, a graphical interface to monitor energy usage and a tool for social interaction, which aims to improve the energy consumption awareness of its users at home as well as in the workplace. The game uses a common “escape room” game approach, tailoring the game archetype to focus on energy efficiency and energy consumption awareness. The monitoring interface allows the users to monitor some predefined energy efficiency indexes. The tool for social integration helps users to build social awareness. Users play the game by trying to exit from a virtual home or office by solving energy puzzles, working to improve their energy savings in their real environment, and sharing their acquired knowledge and experiences. EnerSCAPE implements a unique feedback mechanism based on real energy consumption that leads consumers to apply what they have learned from the virtual reality of the game into their daily real l...
Enabling collective awareness of energy use via a social serious game
EAI Endorsed Transactions on Game-Based Learning, 2017
Serious games are digital games, simulations and virtual environments designed for primary purposes (e.g. teaching, learning and training) other than pure entertainment. They are experiential environments where features such as thought-provoking, informative or stimulating are as important, if not more so, than fun or entertainment. A number of serious games have been developed for energy systems that act as educational tools and help energy consumers to better understand concepts such as resource allocation, electricity prices and grid sustainability. This paper discusses the development of a serious game, the Social Mpower, which visualises a community energy system in which players should avoid energy problems (i.e. blackouts) by individually reducing their energy consumption and sustain the Common-Pool Resource (CPR) of their community. Our experimental hypothesis is that if players are "collective aware" of their individual and community consumption, they consume energy in a more e cient and e↵ective way and therefore, they can avoid potential energy problems (i.e. blackouts). Our experimental results show that Social Mpower can be productively used as an educational tool to bring a desired change in people's behaviour towards energy consumption.
Promoting New Patterns in Household Energy Consumption with Pervasive Learning Games
2007
Engaging computer games can be used to change energy consumption patterns in the home. PowerAgent is a pervasive game for Java-enabled mobile phones that is designed to influence everyday activities and use of electricity in the domestic setting. PowerAgent is connected to the household’s automatic electricity meter reading equipment via the cell network, and this setup makes it possible to use actual consumption data in the game. In this paper, we present a two-level model for cognitive and behavior learning, and we discuss the properties of PowerAgent in relation to the underlying situated learning, social learning, and persuasive technology components that we have included in the game.
Evaluation of a pervasive game for domestic energy engagement among teenagers
Computers in Entertainment, 2009
In this article, we present Power Agent-a pervasive game designed to encourage teenagers and their families to reduce energy consumption in the home. The ideas behind this mobile phonebased game are twofold; to transform the home environment and its devices into a learning arena for hands-on experience with electricity usage and to promote engagement via a team competition scheme. We report on the game's evaluation with six teenagers and their families who played the game for ten days in two cities in Sweden. Data collection consisted of home energy measurements before, during, and after a game trial, in addition to interviews with participants at the end of the evaluation. The results suggest that the game concept was highly efficient in motivating and engaging the players and their families to change their daily energy-consumption patterns during the game trial. Although the evaluation does not permit any conclusions as to whether the game had any postgame effects on behavior, we can conclude that the pervasive persuasive game approach appears to be highly promising in regard to energy conservation and similar fields or issues.
Saving is fun: designing a persuasive game for power conservation
2011
EnergyLife is a mobile game application that aims at increasing energy awareness and saving in the household; it centers around a feedback system with detailed, historical and real time information that is based on wireless power sensors data. The challenge is to provide through feedback knowledge and motivation for sustainable saving. A three-month field test in eight households was organized for EnergyLife. The test involved the automatic collection of access data to the application, and the administration of satisfaction questionnaires, interviews, and usability tasks in the tested families. The paper describes the results of the test and the ensuing re-design strategy, centered on better tailoring the application to the players' actions. The lessons learned can be useful to other persuasive games, since a good fit to the actions of the user is a precondition of effectiveness of any persuasive application.
To test the effectiveness of competitive and collaborative settings on engaging households, a mobile app, called Social Power, was developed to provide electricity meter feedback in two gamified environments. The project aims at stimulating social engagement and promoting behavioural change to save electricity at the household level by forming teams of neighbours in two Swiss cities. The household participants are assigned to one of two teams: either a collaborative team where citizens in the same city try to reach a fixed, collective 10% electricity savings target together, or a competitive team which tries to save the most electricity in comparison to the other city. The collaborative and competitive games were run in parallel as a three month field experiment (with long term monitoring after one year, planned for spring 2017) involving 108 recruited households, and 46 who actively played. The experiment complements the process of smart meter roll-outs initiated by the local energy utility in each respective city with the secondary aim of capturing added benefits of smart meters. Weekly electricity-saving themed challenges are presented to the household member playing on the app. By playing, the participants can change their real-life electricity consumption by interacting differently with their home electricity appliances and at the same time acquire four types of points in the app: electricity saving, electricity efficiency, energy awareness and peak-shifting. New challenges each week and continued interaction aim to improve non-sustainable habits. Tips, quizzes with tangible prizes, and individual badges for accomplishments are used as further incentives for participation. Alongside the app, a blog page and Facebook exist to allow players to interact with each other. An electricity use interface visualises the household electricity demand at hourly and weekly intervals and shows the change from the historical average, as well as their team's savings performance. In this paper we introduce preliminary results on the short-term success of the two game environments after the intervention phase completed in May 2016.