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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Výzkum využití technologie rozšířené reality při práci konstruktérů / Untersuchung des Einsatzes von Augmented-Reality-Techniken auf die Arbeitsprozesse in der Konstruktion

Holešovský, Jiří January 2018 (has links)
This diploma thesis summarizes the principles of augmented reality and the possibilities how this technology could be used in the work of designers. The thesis also describes the possibilities of realizing an augmented reality (AR) program and compares specific AR devices. The process of the designer's work is also analyzed, and concepts how AR could be used during the work process were designed. One concept of use has been implemented. It was a visual-ization of new constructed parts of autonomous robot, developed in project "FOLLOWme". The designers will use this program to detect collisions between parts and verify overall design of the robot.
2

Augmented Reality in Lunar Extravehicular Activities: A Comprehensive Evaluation of Industry Readiness, User Experience, and the Work Environment

Vishnuvardhan Selvakumar (17593110) 11 December 2023 (has links)
<p dir="ltr">This research explores the potential of AR for lunar missions via the xEMU spacesuit. A market analysis of commercial off-the-shelf AR devices identifies technological trends and constraints that inform the architectural decisions for AR integration with the xEMU. User evaluations in simulated work environments ensure lunar informatics align with crew needs. Drawing insights from human-in-the-loop testing of COTS AR devices, qualitative test results underscore the importance of display optimization, occlusion management, and environmental considerations for enhancing the AR experience during lunar EVAs. Grounded in a task analysis from JETT3 analog testing, crew workflows and communication dynamics are baselined, underscoring the vital role of communication and collaboration. Integrating AR into the EVA work environment holds the potential to streamline decision-making, improve navigation, and enhance overall efficiency, but may come with unintended operational consequences. The human-centered approach prioritizes crew involvement, ensuring that technology remains a facilitator rather than an encumbering element in lunar exploration. The study's significance lies in advancing AR technology for lunar EVAs, guiding hardware design, and enabling seamless integration into the EVA work environment. AR holds promise in reshaping the human-technology relationship, empowering crew members, maximizing science output, and contributing to the next chapter in lunar exploration.</p>

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