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Alahmad, M. A.; Wheeler, P. G.; Schwer, A.; Eiden, J.; Brumbaugh, A. (2012). A comparative study of three feedback devices for residential real-time energy monitoring. IEEE Transactions on Industrial Electronics, 59(4), 2002-2013.

Coleman, M. J., Irvine, K. N., Lemon, M., & Shao, L. (2013). Promoting behaviour change through personalized energy feedback in offices. Building Research and Information.

Crowley, M.; Mori, K.; Heitz, A.; Banerjee, B.; Matta, A. (2011). Behavioral science-informed technology interventions for change in residential energy consumption. Paper presented at the Conference on Human Factors in Computing Systems – Proceedings.

Daamen, D. D. L., Staats, H., Wilke, H. A. M., & Engelen, M. (2001). Improving environmental behavior in companies. The effectiveness of tailored versus nontailored interventions. Environment and Behavior, 33(2), 229-248.

Darby, S. (2006). Social learning and public policy: Lessons from an energy-conscious village. Energy Policy, 34(17), 2929-2940.

Darby, S. (2008). Energy feedback in buildings: Improving the infrastructure for demand reduction. Building Research and Information, 36(5), 499-508.

Darby, S. (2010). Smart metering: What potential for householder engagement? Building Research and Information, 38(5), 442-457.

Deci, E. L., Ryan, R. M., & Koestner, R. (1999). A meta-analytic review of experiments examining the effects of extrinsic rewards on intrinsic motivation. Psychological Bulletin, 125(6), 627-668.

Desmedt, J.; Vekemans, G.; Maes, D. (2009). Ensuring effectiveness of information to influence household behaviour.  Journal of Cleaner Production, 17(4), 455-462.

Deutsch, M. (2010). The effect of life-cycle cost disclosure on consumer behavior: Evidence from a field experiment with cooling appliances. Energy Efficiency, 3(4), 303-315.

Dillahunt, T. R. (2011). Communication around home-energy monitoring devices: Connecting stakeholders in low-income communities. Paper presented at the UbiComp’11 – Proceedings of the 2011 ACM Conference on Ubiquitous Computing.

Egmond, C.; Jonkers, R.; Kok, G. (2005). A strategy to encourage housing associations to invest in energy conservation. Energy Policy, 33(18), 2374-2384.

Ellegård, K.; Palm, J. (2011). Visualizing energy consumption activities as a tool for making everyday life more sustainable. Applied Energy, 88(5), 1920-1926.

Fischer, C. (2008). Feedback on household electricity consumption: A tool for saving energy? Energy Efficiency, 1(1), 79-104.

Froehlich, J.; Findlater, L.; Landay, J. (2010). The design of eco-feedback technology. Paper presented at the Conference on Human Factors in Computing Systems – Proceedings.

Gamberini, L.; Spagnolli, A.; Corradi, N.; Jacucci, G.; Tusa, G.; Mikkola, T.; Zamboni, L.; Hoggan, E. (2012). Tailoring feedback to users’ actions in a persuasive game for household electricity conservation Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics) (Vol. 7284 LNCS, pp. 100-111).

Geelen, D.; Keyson, D.; Boess, S.; Brezet, H. (2012). Exploring the use of a game to stimulate energy saving in households. Journal of Design Research, 10(1-2), 102-120.

Graham, J.; Koo, M.; Wilson, T. D. (2011). Conserving Energy by Inducing People to Drive Less. Journal of Applied Social Psychology, 41(1), 106-118.

Gronhoj, A.; Thogersen, J. (2011). Feedback on household electricity consumption: learning and social influence processes. International Journal of Consumer Studies, 35(2), 138-145.

Gustafsson, A.; Bång, M.; Svahn, M. (2009). Power explorer – A casual game style for encouraging long term behavior change among teenagers. Paper presented at the ACM International Conference Proceeding Series.

Ham, J.; Midden, C. (2010). Ambient persuasive technology needs little cognitive effort: The differential effects of cognitive load on lighting feedback versus factual feedback Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics) (Vol. 6137 LNCS, pp. 132-142).

Ham, J.; Midden, C. (2010). A persuasive robotic agent to save energy: The influence of social feedback, feedback valence and task similarity on energy conservation behavior Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics) (Vol. 6414 LNAI, pp. 335-344).

Handgraaf, M. J. J., Van Lidth de Jeude, M. A., & Appelt, K. C. (2013). Public praise vs. private pay: Effects of rewards on energy conservation in the workplace. Ecological Economics, 86, 86-92.

Harvey, J., Thorpe, N., & Fairchild, R. (2013). Attitudes towards and perceptions of eco-driving and the role of feedback systems. Ergonomics, 56(3), 507-521.

Hayes, S. C.; Cone, J. D. (1981). Reduction of Residential Consumption of Electricity Through Simple Monthly Feedback. Journal of Applied Behavior Analysis, 14(1), 81-88.

Hazas, M.; Friday, A.; Scott, J. (2011). Look back before leaping forward: Four decades of domestic energy inquiry. IEEE Pervasive Computing, 10(1), 13-19.

Herrmann, B., Thöni, C., & Gächter, S. (2008). Antisocial punishment across societies. Science, 319(5868), 1362-1367.

Herter, K., Wood, V., & Blozis, S. (2013). The effects of combining dynamic pricing, AC load control, and real-time energy feedback: SMUD’S 2011 Residential Summer Solutions Study. Energy Efficiency, 1-13.

Hickey, S.; Fitzpatrick, C. (2008). Using feedback to enhance use phase efficiency of personal computers. Paper presented at the IEEE International Symposium on Electronics and the Environment.

Iyer, M.; Kempton, W.; Payne, C. (2006). Comparison groups on bills: Automated, personalized energy information. Energy and Buildings, 38(8), 988-996.

Kantola, S. J.; Syme, G. J.; Campbell, N. A. (1984). Cognitive dissonance and energy conservation. Journal of Applied Psychology, 69(3), 416-421.

Kappel, K.; Grechenig, T. (2009). “Show-me”: Water consumption at a glance to promote water conservation in the shower. Paper presented at the ACM International Conference Proceeding Series.

Karjalainen, S. (2011). Consumer preferences for feedback on household electricity consumption. Energy and Buildings, 43(2-3), 458-467.

Katzev, R. C., Laura; Fisher, Pat. (1980). Effect of Feedback and Social Reinforcement on Residential Electricity Consumption. Journal of Environmental Systems, 10(3), 215-227.

Kua, H. W.; Wong, S. E. (2012). Lessons for integrated household energy conservation policies from an intervention study in Singapore. Energy Policy, 47, 49-56.

Larrick, R. P.; Soll, J. B. (2008). The MPG illusion. Science, 320(5883), 1593-1594.

Maan, S.; Merkus, B.; Ham, J.; Midden, C. (2011). Making it not too obvious: The effect of ambient light feedback on space heating energy consumption. Energy Efficiency, 4(2), 175-183.

Mansouri, I.; Newborough, M.; Probert, D. (1996). Energy consumption in UK households: Impact of domestic electrical appliances. Applied Energy, 54(3 SPEC. ISS.), 211-285.

Martiskainen, M.; Coburn, J. (2011). The role of information and communication technologies (ICTs) in household energy consumption-prospects for the UK. Energy Efficiency, 4(2), 209-221.

Matsukawa, I. (2011). How does information provision affect residential energy conservation? Evidence from a field experiment. Energy Studies Review, 18(1).

McCalley, L. T.; de Vries, P. W.; Midden, C. J. H. (2011). Consumer response to product-integrated energy feedback: Behavior, goal level shifts, and energy conservation. Environment and Behavior, 43(4), 525-545.

McCalley, L. T.; Midden, C. J. H. (2002). Energy conservation through product-integrated feedback: The roles of goal-setting and social orientation. Journal of Economic Psychology, 23(5), 589-603.

McClelland, L. C., Stuart W. (1979). Energy Conservation Effects of Continuous In-Home Feedback in All-Electric Homes. Journal of Environmental Systems, 9(2), 169-173.

Medland, R. (2010). Curbing paper wastage using flavoured feedback. Paper presented at the ACM International Conference Proceeding Series.

Midden, C. ; Ham, J. (2008). The persuasive effects of positive and negative social feedback from an embodied agent on energy conservation behavior. Paper presented at the AISB 2008 Convention: Communication, Interaction and Social Intelligence – Proceedings of the AISB 2008 Symposium on Persuasive Technology.

Midden, C.; Ham, J. (2009). Using negative and positive social feedback from a robotic agent to save energy. Paper presented at the ACM International Conference Proceeding Series.

Needleman, L. D.; Geller, E. S. (1992). Comparing Interventions to Motivate Work-Site Collection of Home-Generated Recyclables. American Journal of Community Psychology, 20(6), 775-785.

Olmos, L.; Ruester, S.; Liong, S. J.; Glachant, J. M. (2011). Energy efficiency actions related to the rollout of smart meters for small consumers, application to the Austrian system. Energy, 36(7), 4396-4409.

Moere., A. V.; Tomitsch, M.; Hoinkis, M.; Trefz, E.; Johansen, S.; Jones, A. (2011). Comparative feedback in the street: Exposing residential energy consumption on house façades Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics) (Vol. 6946 LNCS, pp. 470-488).

Mattheij., R.; Szilvasi, L.; De Beer, L.; Rakiman, K.; Shahid, S. (2011). GooGreen: Towards increasing the environmental awareness of households Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics) (Vol. 6763 LNCS, pp. 500-509).

Petkov, P.; Köbler, F.; Foth, M.; Krcmar, H. (2011). Motivating domestic energy conservation through comparative, community-based feedback in mobile and social media. Paper presented at the C and T 2011 – 5th International Conference on Communities and Technologies, Conference Proceedings.

Petkov, P; Medland, R.; Köbler, F.; Krcmar, H.; Foth, M. (2011). Engaging energy saving through motivation-specific social comparison. Paper presented at the Conference on Human Factors in Computing Systems – Proceedings.

Pierce, J.; Fan, C.; Lomas, D.; Marcu, G.; Paulos, E. (2010). Some consideration on the (in)effectiveness of residential energy feedback systems. Paper presented at the DIS 2010 – Proceedings of the 8th ACM Conference on Designing Interactive Systems.

Pyrko, J.; Darby, S. (2011). Conditions of energy efficient behaviour-a comparative study between Sweden and the UK. Energy Efficiency, 4(3), 393-408.

Rabinovich, A.; Morton, T. A.; Postmes, T.; Verplanken, B. (2009). Think global, act local: The effect of goal and mindset specificity on willingness to donate to an environmental organization. Journal of Environmental Psychology, 29(4), 391-399.

Sauer, J.; Schmeink, C.; Wastell, D. G. (2007). Feedback quality and environmentally friendly use of domestic central heating systems. Ergonomics, 50(6), 795-813.

Schrammel, J.; Gerdenitsch, C.; Weiss, A.; Kluckner, P. M.; Tscheligi, M. (2011). FORE-watch – The clock that tells you when to use: Persuading users to align their energy consumption with green power availability Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics) (Vol. 7040 LNCS, pp. 157-166).

Schultz, P. W. (1999). Changing behavior with normative feedback interventions: A field experiment on curbside recycling. [Article]. Basic and Applied Social Psychology, 21(1), 25-36.

Schultz, P. W.; Nolan, J. M.; Cialdini, R. B.; Goldstein, N. J.; Griskevicius, V. (2007). The constructive, destructive and reconstructive power of social norms. Psychological Science, 18(5), 429-434.

Séguin, C.; Pelletier, L. G.; Hunsley, J. (1999). Predicting environmental behaviors: The influence of self-determined motivation and information about perceived environmental health risks. Journal of Applied Social Psychology, 29(8), 1582-1604.

Seligman, C.; Darley, J. M. (1976). Feedback as a means of decreasing residential energy consumption. Journal of Applied Psychology, 62(4), 363-368.

Shin, H. S.; Cho, S. M.; Huh, J. S.; Kim, J. C. (2011). Analysis of energy savings using smart metering. ICIC Express Letters, Part B: Applications, 2(2), 365-370.

Siero, F. W.; Bakker, A. B.; Dekker, G. B.; vandenBurg, M. T. C. (1996). Changing organizational energy consumption behaviour through comparative feedback. Journal of Environmental Psychology, 16(3), 235-246.

Spagnolli, A.; Corradi, N.; Gamberini, L.; Hoggan, E.; Jacucci, G.; Katzeff, C.; Broms, L.; Jonsson, L. (2011). Eco-feedback on the go: Motivating energy awareness. Computer, 44(5), 38-45.

Stajkovic, A. D., & Luthans, F. (2001). Differential effects of incentive motivators on work performance. Academy of Management Journal, 44(3), 580-590.

Tarzia, S. P.; Dinda, P. A.; Dick, R. P.; Memik, G. (2010). Display power management policies in practice. Paper presented at the Proceeding of the 7th International Conference on Autonomic Computing, ICAC ’10 and Co-located Workshops.

Van Vugt, M.; Samuelson, C. D. (1999). The impact of personal metering in the management of a natural resource crisis: A social dilemma analysis. Personality and Social Psychology Bulletin, 25(6), 731-745.

Vassileva, I.; Odlare, M.; Wallin, F.; Dahlquist, E. (2012). The impact of consumers’ feedback preferences on domestic electricity consumption. Applied Energy, 93, 575-582.

VöLlink, T.; Meertens, R. (2010). The Effect of a Prepayment Meter on Residential Gas Consumption. Journal of Applied Social Psychology, 40(10), 2556-2573.

Weiss, M.; Mattern, F.; Graml, T.; Staake, T.; Fleisch, E. (2009). Handy feedback: Connecting smart meters with mobile phones. Paper presented at the MUM 2009 – Proceedings of the 8th International Conference on Mobile and Ubiquitous Multimedia.

Wilhite, H.; Ling, R. (1995). Measures Energy Savings From a More Informative Energy Bill. Energy and Buildings, 22(2), 145-155.

Wood, G.; Newborough, M. (2003). Dynamic energy-consumption indicators for domestic appliances: Environment, behaviour and design. Energy and Buildings, 35(8), 821-841.

Wood, G.; Newborough, M. (2007). Energy-use information transfer for intelligent homes: Enabling energy conservation with central and local displays. Energy and Buildings, 39(4), 495-503.

Yang, J. C.; Chien, K. H.; Liu, T. C. (2012). A digital game-based learning system for energy education: An energy conservation pet. Turkish Online Journal of Educational Technology, 11(2), 27-37.