The dubuque water portal: evaluation of the uptake, use and impact of residential water consumption feedback

The Dubuque Water Portal is a system aimed at supporting voluntary reductions of water consumption that is intended to be deployed city-wide. It provides each household with fine-grained, near real time feedback on their water consumption, as well as using techniques like social comparison, weekly games, and news and chat to encourage water conservation. This study used logs, a survey and interviews to evaluate a 15-week pilot with 303 households. It describes the Portal's design, and discusses its adoption, use and impacts. The system resulted in a 6.6% decrease in water consumption, and the paper employs qualitative methods to look at the ways in which the Portal was (or wasn't) effective in supporting its users and enabling them to reduce their consumption. The paper concludes with a discussion of design implications for residential feedback systems, and possible engagement models.

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

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

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

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

[5]  Ernesto Arroyo,et al.  Waterbot: exploring feedback and persuasive techniques at the sink , 2005, CHI.

[6]  Thomas Grechenig,et al.  "show-me": water consumption at a glance to promote water conservation in the shower , 2009, Persuasive '09.

[7]  Chang-Tien Lu,et al.  Activity analysis based on low sample rate smart meters , 2011, KDD.

[8]  Eric Paulos,et al.  UpStream: motivating water conservation with low-cost water flow sensing and persuasive displays , 2010, CHI.

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

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

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

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

[13]  Arabinda Mishra,et al.  Outgrowing the Earth: The food security challenge in an age of falling water tables and rising temperatures , 2005 .