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Main Authors: Suresh, Smruti, Carvajal, Michael Angelo, Hanson, Nathaniel, Holand, Ethan, Hibbard, Samuel, Padir, Taskin
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2411.16511
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author Suresh, Smruti
Carvajal, Michael Angelo
Hanson, Nathaniel
Holand, Ethan
Hibbard, Samuel
Padir, Taskin
author_facet Suresh, Smruti
Carvajal, Michael Angelo
Hanson, Nathaniel
Holand, Ethan
Hibbard, Samuel
Padir, Taskin
contents The inspection of confined critical infrastructure such as attics or crawlspaces is challenging for human operators due to insufficient task space, limited visibility, and the presence of hazardous materials. This paper introduces a prototype of PARIS (Precision Application Robot for Inaccessible Spaces): a use-inspired teleoperated mobile robot manipulator system that was conceived, developed, and tested for and selected as a Phase I winner of the U.S. Department of Energy's E-ROBOT Prize. To improve the thermal efficiency of buildings, the PARIS platform supports: 1) teleoperated mapping and navigation, enabling the human operator to explore compact spaces; 2) inspection and sensing, facilitating the identification and localization of under-insulated areas; and 3) air-sealing targeted gaps and cracks through which thermal energy is lost. The resulting versatile platform can also be tailored for targeted application of treatments and remediation in constrained spaces.
format Preprint
id arxiv_https___arxiv_org_abs_2411_16511
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Use-Inspired Mobile Robot to Improve Safety of Building Retrofit Workforce in Constrained Spaces
Suresh, Smruti
Carvajal, Michael Angelo
Hanson, Nathaniel
Holand, Ethan
Hibbard, Samuel
Padir, Taskin
Robotics
The inspection of confined critical infrastructure such as attics or crawlspaces is challenging for human operators due to insufficient task space, limited visibility, and the presence of hazardous materials. This paper introduces a prototype of PARIS (Precision Application Robot for Inaccessible Spaces): a use-inspired teleoperated mobile robot manipulator system that was conceived, developed, and tested for and selected as a Phase I winner of the U.S. Department of Energy's E-ROBOT Prize. To improve the thermal efficiency of buildings, the PARIS platform supports: 1) teleoperated mapping and navigation, enabling the human operator to explore compact spaces; 2) inspection and sensing, facilitating the identification and localization of under-insulated areas; and 3) air-sealing targeted gaps and cracks through which thermal energy is lost. The resulting versatile platform can also be tailored for targeted application of treatments and remediation in constrained spaces.
title Use-Inspired Mobile Robot to Improve Safety of Building Retrofit Workforce in Constrained Spaces
topic Robotics
url https://arxiv.org/abs/2411.16511