How Viable are Energy Savings in Smart Homes? A Call to Embrace Rebound Effects in Sustainable HCI

June 17, 2025 Β· Declared Dead Β· πŸ› ACM J. Comput. Sustain. Soc.

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Authors Christina Bremer, Harshit Gujral, Michelle Lin, Lily Hinkers, Christoph Becker, Vlad C. Coroamă arXiv ID 2506.14653 Category cs.HC: Human-Computer Interaction Citations 20 Venue ACM J. Comput. Sustain. Soc. Last Checked 4 months ago
Abstract
As part of global climate action, digital technologies are seen as a key enabler of energy efficiency savings. A popular application domain for this work is smart homes. There is a risk, however, that these efficiency gains result in rebound effects, which reduce or even overcompensate the savings. Rebound effects are well-established in economics, but it is less clear whether they also inform smart energy research in other disciplines. In this paper, we ask: to what extent have rebound effects and their underlying mechanisms been considered in computing, HCI and smart home research? To answer this, we conducted a literature mapping drawing on four scientific databases and a SIGCHI corpus. Our results reveal limited consideration of rebound effects and significant opportunities for HCI to advance this topic. We conclude with a taxonomy of actions for HCI to address rebound effects and help determine the viability of energy efficiency projects.
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