How Everyday Activities Inside Your Home Can Generate Energy
Passive interfaces, such as light switches or doorknobs, refer to hardware that can store energy, but the energy can only be used for the purpose it was intended. However, research is imagining new ways for that energy to be harvested and adapted — turning your doorknob could power your alarm system or opening your freezer could turn on your kitchen light.
By integrating smart capabilities such as sensing and energy harvesting, Dr. Jeeeun Kim is transforming passive interfaces into adaptive interfaces, altering hardware to be used in non-traditional ways. These interfaces will assist people with disabilities, automate domestic tasks, and power millions of computers.
Kim, assistant professor in the Department of Computer Science & Engineering at Texas A&M University, is a recipient of the National Science Foundation’s Faculty Early Career Development (CAREER) award, which will support this research.
“Daily design issues are hard to attend if prior experiences are used as a baseline,” said Kim. “Even to those with known personal goals, like reducing utility bills, adopting the latest scientific advances in real life demands expertise because tools to support end-users, like you and me, are lacking.”
3D-Printed Augmentations
The project will aim to increase user awareness about daily computational challenges and redesign opportunities using 3D-printed augmentations. One example of augmentations is adding an attachment to a window slide or a refrigerator’s door hinges and then that converts the energy created from sliding the window or opening the fridge door into energy to be used in new ways. For example, with augmentation a doorknob rotation could power an intruder alarm or opening a refrigerator could power the fridge’s inventory display.
This research will build on new methods to capture interaction properties, which are highly conceptual, as well as critical fabrication parameters for complex augmentations that are efficient and accurate. This will allow users to have access to smart augmentations at minimal cost.
Media contact: Alyson Chapman, [email protected]