PerFridge: An Augmented Refrigerator That Detects and Presents Wasteful Usage for Eco-Persuasion

The excessive consumption of resource such as water and electricity is a societal issue, in which a persuasive technology is getting attention to address the issue. The amount of resource usage is often utilized as a persuasive eco-feedback, however, the information merely increases the awareness of resource usage, or a user might be frustrated against a feedback in an exceptionally unavoidable excessive consumption. In this paper, we augment a household refrigerator with sensors and a display to realize an eco-feedback that reflects user's wasteful behaviors in resource usage to make the feedback more persuasive and acceptable. We conducted a user study with a family for two weeks. The result implies the effectiveness of "waste-based" presentation compared with a traditional "amount-based" one.

[1]  James A. Landay,et al.  UbiGreen: investigating a mobile tool for tracking and supporting green transportation habits , 2009, CHI.

[2]  G.Subramanya Nayak,et al.  Intelligent Refrigerator with monitoring capability through internet , 2011 .

[3]  Jesse S. Jin,et al.  A Smart Fridge with an Ability to Enhance Health and Enable Better Nutrition , 2009 .

[4]  John A. Kembel,et al.  Infotropism: living and robotic plants as interactive displays , 2004, DIS '04.

[5]  José Rouillard The Pervasive Fridge A Smart Computer System Against Uneaten Food Loss , 2012, ICONS 2012.

[6]  Miren Iturburu,et al.  FoodManager: a cooking, eating and appliance controlling support system for the elderly , 2010, PETRA '10.

[7]  Dominique Guinard,et al.  Increasing energy awareness through web-enabled power outlets , 2010, MUM.

[8]  Magnus Bång,et al.  The PowerHhouse: A Persuasive Computer Game Designed to Raise Awareness of Domestic Energy Consumption , 2006, PERSUASIVE.

[9]  Leonardo Bonanni,et al.  Attention-based design of augmented reality interfaces , 2005, CHI Extended Abstracts.

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

[11]  Leonardo Bonanni,et al.  CounterIntelligence: Augmented Reality Kitchen , 2005 .

[12]  Vinny Cahill,et al.  An Empirical Study of the Potential for Context-Aware Power Management , 2007, UbiComp.

[13]  Takashi Matsuyama,et al.  Energy on demand: Efficient and versatile energy control system for home energy management , 2011, 2011 IEEE International Conference on Smart Grid Communications (SmartGridComm).

[14]  Dong Wang,et al.  A Content-aware Fridge based on RFID in smart home for home-healthcare , 2009, 2009 11th International Conference on Advanced Communication Technology.

[15]  John Krumm,et al.  PreHeat: controlling home heating using occupancy prediction , 2011, UbiComp '11.