Virtual Environments for Visualizing Structural Health Monitoring Sensor Networks, Data, and Metadata

Virtual Environments for Visualizing Structural Health Monitoring Sensor Networks, Data, and Metadata

Visualization of sensor networks, data, and metadata is becoming one of the most pivotal aspects of the structural health monitoring (SHM) process. Without the ability to communicate efficiently and effectively between disparate groups working on a project, an SHM system can be underused, misunderst...

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Bibliographic Details
Published in:Sensors (Basel, Switzerland) Vol. 18; no. 1; p. 243
Main Authors: Napolitano, Rebecca, Blyth, Anna, Glisic, Branko
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 16-01-2018
MDPI
Subjects:
data
Engineering education
Metadata
Production planning
sensor networks
Sensors
Structural health monitoring
Virtual environments
Virtual networks
Virtual reality
Visualization
Workflow
metadata
visualization
sensor networks
structural health monitoring
data
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Summary:Visualization of sensor networks, data, and metadata is becoming one of the most pivotal aspects of the structural health monitoring (SHM) process. Without the ability to communicate efficiently and effectively between disparate groups working on a project, an SHM system can be underused, misunderstood, or even abandoned. For this reason, this work seeks to evaluate visualization techniques in the field, identify flaws in current practices, and devise a new method for visualizing and accessing SHM data and metadata in 3D. More precisely, the work presented here reflects a method and digital workflow for integrating SHM sensor networks, data, and metadata into a virtual reality environment by combining spherical imaging and informational modeling. Both intuitive and interactive, this method fosters communication on a project enabling diverse practitioners of SHM to efficiently consult and use the sensor networks, data, and metadata. The method is presented through its implementation on a case study, Streicker Bridge at Princeton University campus. To illustrate the efficiency of the new method, the time and data file size were compared to other potential methods used for visualizing and accessing SHM sensor networks, data, and metadata in 3D. Additionally, feedback from civil engineering students familiar with SHM is used for validation. Recommendations on how different groups working together on an SHM project can create SHM virtual environment and convey data to proper audiences, are also included.
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ISSN:1424-8220
1424-8220
DOI:10.3390/s18010243