The dubuque electricity portal: evaluation of a city-scale residential electricity consumption feedback system

This paper describes the Dubuque Electricity Portal, a city-scale system aimed at supporting voluntary reductions of electricity consumption. The Portal provided each household with fine-grained feedback on its electricity use, as well as using incentives, comparisons, and goal setting to encourage conservation. Logs, a survey and interviews were used to evaluate the user experience of the Portal during a 20-week pilot with 765 volunteer households. Although the volunteers had already made a wide range of changes to conserve electricity prior to the pilot, those who used the Portal decreased their electricity use by about 3.7%. They also reported increased understanding of their usage, and reported taking an array of actions - both changing their behavior and their electricity infrastructure. The paper discusses the experience of the system's users, and describes challenges for the design of ECF systems, including balancing accessibility and security, a preference for time-based visualizations, and the advisability of multiple modes of feedback, incentives and information presentation.

[1]  James A. Landay,et al.  The design of eco-feedback technology , 2010, CHI.

[2]  Eric Paulos,et al.  Beyond energy monitors: interaction, energy, and emerging energy systems , 2012, CHI.

[3]  E. Hippel,et al.  Lead users: a source of novel product concepts , 1986 .

[4]  Eric Paulos,et al.  Home, habits, and energy: examining domestic interactions and energy consumption , 2010, CHI.

[5]  Phoebe Sengers,et al.  Mapping the landscape of sustainable HCI , 2010, CHI.

[6]  Corinna Fischer Feedback on household electricity consumption: a tool for saving energy? , 2008 .

[7]  Eric Paulos,et al.  Some consideration on the (in)effectiveness of residential energy feedback systems , 2010, Conference on Designing Interactive Systems.

[8]  Sarah C. Darby,et al.  Social learning and public policy: Lessons from an energy-conscious village , 2006 .

[9]  Vladislav Kantchev Shunturov,et al.  Dormitory residents reduce electricity consumption when exposed to real‐time visual feedback and incentives , 2007 .

[10]  Eli Blevis,et al.  Energy aware dwelling: a critical survey of interaction design for eco-visualizations , 2008, OZCHI.

[11]  D. Hoak,et al.  Pilot Evaluation of Energy Savings from Residential Energy Demand Feedback Devices , 2008 .

[12]  Phoebe Sengers,et al.  Sustainably unpersuaded: how persuasion narrows our vision of sustainability , 2012, CHI.

[13]  Eli Blevis,et al.  Sustainable interaction design: invention & disposal, renewal & reuse , 2007, CHI.

[14]  Milind R. Naphade,et al.  The dubuque water portal: evaluation of the uptake, use and impact of residential water consumption feedback , 2012, CHI.

[15]  Paul Dourish,et al.  HCI and environmental sustainability: the politics of design and the design of politics , 2010, Conference on Designing Interactive Systems.

[16]  John Cullen,et al.  Democratizing Innovation , 2020, Encyclopedia of Creativity, Invention, Innovation and Entrepreneurship.

[17]  Yolande A. A. Strengers,et al.  Designing eco-feedback systems for everyday life , 2011, CHI.

[18]  Michael Nye,et al.  Making energy visible: A qualitative field study of how householders interact with feedback from smart energy monitors , 2010 .

[19]  C. Vlek,et al.  A review of intervention studies aimed at household energy conservation , 2005 .