A Haptic Virtual Borescope for Visual Engine Inspection Training

Vembar, Deepak; Duchowski, Andrew T.; Sadasivan, Sajay; Gramopadhye, Anand K.

doi:10.1109/3dui.2008.4476586

Cited by 5 publications

(3 citation statements)

References 15 publications

(19 reference statements)

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“…It is possible that team communication and coordination as supported by CRAM could account for potential (hypothesized) future benefits of VR systems over pure video. It is also possible that adding better haptic feedback could improve these [28].…”

Section: Discussionmentioning

confidence: 97%

CRAM it! A comparison of virtual, live-action and written training systems for preparing personnel to work in hazardous environments

Stocker

Sunshine-Hill

Drake

et al. 2011

2011 IEEE Virtual Reality Conference

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In this paper we investigate the utility of an interactive, desktopbased virtual reality (VR) system for training personnel in hazardous working environments. Employing a novel software model, CRAM (Course Resource with Active Materials), we asked participants to learn a specific aircraft maintenance task. The evaluation sought to identify the type of familiarization training that would be most useful prior to hands on training, as well as after, as skill maintenance. We found that participants develop an increased awareness of hazards when training with stimulating technology -in particular (1) interactive, virtual simulations and (2) videos of an instructor demonstrating a task -versus simply studying (3) a set of written instructions. The results also indicate participants desire to train with these technologies over the standard written instructions. Finally, demographic data collected during the evaluation elucidates future directions for VR systems to develop a more robust and stimulating hazard training environment.

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Section: Discussionmentioning

confidence: 97%

CRAM it! A comparison of virtual, live-action and written training systems for preparing personnel to work in hazardous environments

Stocker

Sunshine-Hill

Drake

et al. 2011

2011 IEEE Virtual Reality Conference

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“…To overcome these shortages, it is crucial to hone the skills of the inspector with On-the-Job Training (OJT) in real-world situations and virtual training including computer simulation [1]. The addition of haptic feedback also addresses the interaction between the endoscope distal end and surfaces [2]. With these methods engineers are able to plan and optimize the inspection process including the path planning before the actual examination.…”

Section: Introductionmentioning

confidence: 99%

Endoscopic orientation by multimodal data fusion

Pulwer

Fiebelkorn

Zesch

et al. 2019

MOEMS and Miniaturized Systems XVIII

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To improve the feasibility of endoscopic inspection processes we developed a system that provides online information about position, orientation and viewing direction of endoscopes, to support the analysis of endoscopic images and to ease the operational handling of the equipment. The setup is based on an industrial endoscope consisting of a camera, various MEMS and multimodal data fusion. The software contains algorithms for feature and geometric structure recognition as well as Kalman filters. To track the distal end of the endoscope and to generate 3D point cloud data in real time the optical and photometrical characteristics of the system are registered and the movement of the endoscope is reconstructed by using image processing techniques.

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“…The two groups were initially given a brief lecture on non-destructive testing (NDT) and the use of borescope simulator in NDI by the course instructor. For a detailed description of the borescope simulator development, please refer to Vembar et al (2008) 11 . In order to evaluate the differences between the two groups, an assessment instrument was designed as a form of a quiz.…”

Section: Methodsmentioning

confidence: 99%

Pedagogical Material Development And Curriculum Assessment To Enhance Nondestructive Inspection In Aircraft Maintenance Technology (Amt)

Rupasinghe

Kurz²,

Washburn

et al.

2009 Annual Conference &Amp; Exposition Proceedings

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This paper presents results from curriculum enhancements implemented at an Aircraft Maintenance Technology (AMT) program to improve the learning process of students through creation of educational materials, assessment tools and curriculum redesign. Using Bloom's Taxonomy in cognitive and psychomotor domains, course objectives were refined to create more meaningful student outcomes. These were mapped to reflect the expected student proficiency and goals as advised by regulatory agencies. These include the guidelines stipulated by the FAA (Federal Aviation Administration). We identified course objectives for six course modules currently taught in an aircraft maintenance program at a 2-year technical college: ACM 120 (Materials & Corrosion Control), ACM 167(Landing Gear Systems), ACM 174 (Airframe Inspection), ACM 210 (Reciprocating Engine Overhaul), ACM 224 (Turbine engine Overhaul), and ACM 226 (Engine Inspections). For these modules, each objective was analyzed under Bloom's Taxonomy's sub-domains. These include knowledge, comprehension, application, analysis, synthesis and evaluation under the broad cognitive domain and initiation, manipulation, precision, articulation and naturalization under the psychomotor domain. Through an iterative process, course objectives were refined for the six course modules and objectives were transformed to outcomes. The curriculum material development process was extended to identify new non-destructive inspection (NDI) simulators to be incorporated in classroom activities and learning processes. These interactive 3D knowledge objects based simulators are expected to be integrated in the AMT curriculum to improve the learning outcomes. A thorough statistical analysis will be carried out to evaluate the student outcomes through the enhanced curriculum. A novel Excel based decision support system, which will be used for the curriculum design and as an assessment tool/template using Visual Basic for Application (VBA) is proposed as future work.

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A Haptic Virtual Borescope for Visual Engine Inspection Training

Cited by 5 publications

References 15 publications

CRAM it! A comparison of virtual, live-action and written training systems for preparing personnel to work in hazardous environments

CRAM it! A comparison of virtual, live-action and written training systems for preparing personnel to work in hazardous environments

Endoscopic orientation by multimodal data fusion

Pedagogical Material Development And Curriculum Assessment To Enhance Nondestructive Inspection In Aircraft Maintenance Technology (Amt)

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