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Powering the Future: Everyday Objects Transformed into Smart Energy Harvesters

Author: Texas A&M University
Published: 2024/12/21
Publication Type: Announcement
Topic: Assistive Home Products - Publications List

Page Content: Synopsis Introduction Main Insights, Updates

Synopsis: Transforming everyday objects into energy-harvesting adaptive interfaces, revolutionizing home automation, accessibility, and energy efficiency through 3D-printed augmentations and AI-driven tools.

Why it matters: This article highlights innovative research on transforming everyday objects into energy-harvesting adaptive interfaces. Dr. Jeeeun Kim's work at Texas A&M University explores how passive interfaces like doorknobs and light switches can be augmented to store and repurpose energy, potentially revolutionizing home automation, accessibility, and energy efficiency. The research aims to develop 3D-printed augmentations and AI-driven tools that allow users to easily identify and implement these smart modifications, promoting sustainable living and addressing overlooked design opportunities in our daily environments. This groundbreaking approach not only promises to make homes more energy-efficient and accessible but also empowers individuals to create their own innovations in assistive computing and smart home technology - Disabled World (DW).

Introduction

Could turning a doorknob power your kitchen light? Researchers are exploring new ways to harvest and adapt 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.

Main Item

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 and 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.

"Unfortunately, recent advances in AI research of today only focuses on object, instance level detection from millions of images and videos such as a toilet, microwave, not the human interactions, lifting a toilet lid and tapping on microwave's button panels, where all human-centered computing challenges actually occur," Kim said.

To accomplish this task, Kim has developed a new framework for creating a large-scale dataset that helps describe human interactions with daily objects, fine-grained parts and their interaction properties. Kim also developed an end-to-end software system for lay persons to aim their smartphone camera toward their indoor environment to scan for hidden accessibility barriers and overlay detected information on the Augmented Reality (AR) views.

Awareness Of Wasted Energy

Kim hopes this tool will help promote pro-social behaviors, assisting people to be aware of accessibility and design opportunities that are abundant but overlooked.

"My research is not limited to accessibility solely," said Kim. "I hope my toolkit for end-users can scan the multi-residential buildings and interactions at multiple dimensions, so residents also can notice how inaccessible their common physical environments are, how much energy is being wasted and how they can make changes toward smart, sustainable buildings by themselves."

While the complete replacement of these interfaces with smart devices is not feasible and may create e-wastes causing huge impact on the environments, augmentations promise cost-effective reconfiguration of daily interfaces. Kim hopes this research is a blueprint for altering physical interfaces in ways that make them more energy and cost effective, while also being easier to use.

"By tackling multifaceted, interdisciplinary approaches across digital fabrication, end-user programming, deep learning, robotics, and design, this project lays the foundation for a future where every individual creates daily innovations in assistive computing devices, smart homes, and green buildings," said Kim.

Funding for this research is administered by the Texas A&M Engineering Experiment Station (TEES), the official research agency for Texas A&M Engineering.

Editorial Insights, Analysis, and Developments

As Dr. Jeeeun Kim's pioneering research continues to push the boundaries of energy harvesting and adaptive interfaces, it underscores a critical shift in how we approach sustainability and accessibility in our daily lives. By leveraging innovative technologies such as 3D printing and AI, this work not only offers practical solutions for reducing energy waste and enhancing home automation but also empowers individuals to become active participants in creating a more sustainable and inclusive future. As we move forward, it is imperative to support and build upon such interdisciplinary approaches, ensuring that the benefits of technological advancements are equitably distributed and environmentally responsible - Disabled World (DW).

Attribution/Source(s):
This quality-reviewed publication was selected for publishing by the editors of Disabled World (DW) due to its significant relevance to the disability community. Originally authored by Texas A&M University, and published on 2024/12/21, the content may have been edited for style, clarity, or brevity. For further details or clarifications, Texas A&M University can be contacted at tamu.edu. NOTE: Disabled World does not provide any warranties or endorsements related to this article.

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Information and Page References

Disabled World (DW) is a comprehensive online resource that provides information and news related to disabilities, assistive technologies, and accessibility issues. Founded in 2004 our website covers a wide range of topics, including disability rights, healthcare, education, employment, and independent living, with the goal of supporting the disability community and their families.

Cite This Page (APA): Texas A&M University. (2024, December 21). Powering the Future: Everyday Objects Transformed into Smart Energy Harvesters. Disabled World (DW). Retrieved January 22, 2025 from www.disabled-world.com/assistivedevices/household/harvesting-energy.php

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