Uncrewed Aerial Systems Applications for Bridge Inspections
Author | : Alicia McConnell |
Publisher | : |
Total Pages | : 0 |
Release | : 2024 |
Genre | : Bridges |
ISBN | : 9780309709927 |
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Author | : Alicia McConnell |
Publisher | : |
Total Pages | : 0 |
Release | : 2024 |
Genre | : Bridges |
ISBN | : 9780309709927 |
Author | : Sattar Dorafshan |
Publisher | : |
Total Pages | : 178 |
Release | : 2017 |
Genre | : Bridges |
ISBN | : |
The applications of Unmanned Aerial Systems (UAS) for bridge inspection, with emphasis on under-bridge inspection and fatigue crack detection, were studied in this report. The potential benefits and challenges of using UAS for bridge inspection were identified through an extensive literature survey. The feasibility of using UAS for fatigue crack detection was studied by determining the minimum lighting, camera distance and environmental requirements for three UAS. The DJI Mavic UAS performed better than the others in both indoor and outdoor GPS-denied inspections. An in-service bridge in Ashton, Idaho was inspected using this UAS to find fatigue cracks. No fatigue crack, known or new, was detected in the UAS images but marker lines around the known fatigue cracks (drawn by the inspectors in previous inspections), concrete defects, and steel rust were detected. Thermography showed promising results for fatigue crack detection in a lab setting, but it was not feasible for UAS applications since it had to be performed using active thermography techniques to obtain adequate results. Additionally, image processing algorithms for autonomous detection of both concrete and fatigue cracks were successfully developed. These algorithms, especially for fatigue crack detection, require more images to perform better, but were demonstrated as feasible to aid in a real-time inspection. Inspections in semi-controlled conditions at the S-BRITE center showed that UAS assisted inspections can provide inspections similar, at-best, to human inspections.
Author | : Jennifer Wells |
Publisher | : |
Total Pages | : 345 |
Release | : 2018 |
Genre | : Bridges |
ISBN | : |
Bridges are a key part of our transportation system and maintaining this infrastructure is important to ensure the safety of the traveling public and to effectively manage these valuable assets. Safety inspections not only ensure the structural integrity of a bridge but provide valuable data to decision makers. The Minnesota Department of Transportation and Collins Engineers, Inc. has completed this third phase of research focused on utilizing drones as a tool for improving the quality of bridge inspections. The previous phases focused on the rules and regulations, drone hardware and the ability of drones to collect quality inspection data. This phase of research has identified new drone technology and methods to address limitations identified in Phase II. More importantly, this research phase has focused on the value of data collected during the inspection and finding ways to process the data into actionable inspection deliverables that greatly improve the quality of the inspections. These inspection deliverables better communicate the inspection results to bridge owners and engineers. Our world is being transformed by technology including drones that can collect, process, store, and analyze large amounts of data and this research is applying the same transformative concepts and technology to improve bridge inspection outcomes.
Author | : Daniel T. Gillins |
Publisher | : |
Total Pages | : 41 |
Release | : 2016 |
Genre | : Bridges |
ISBN | : |
This report presents the results of a study on the use of unmanned aircraft systems (UAS) in bridge inspections. A detailed literature review was conducted to assess and document the current state of knowledge on the use of UAS in structural inspections and related engineering applications. A particular focus was on related work done by various state DOTs. Given the technical specifications and findings documented in the literature review, an item-by -item review of bridge inspection manuals was then performed to assess which elements of a bridge inspection could potentially benefit from use of UAS. Additionally, various categories of UAS and payloads were evaluated for bridge inspection. A small multicopter UAS was acquired and used to collect ultra-high-definition video and still imagery of a large bridge in Independence, Oregon. The imagery was reviewed by project team members and ODOT bridge inspectors. The results of the Independence Bridge inspection are presented, along with recommendations for further work. The study identified several challenges on the use of UAS for bridge inspection, including the need to capture very high resolution imagery, and problems due to strong wind and poor lighting conditions.
Author | : Jennifer Wells |
Publisher | : |
Total Pages | : 174 |
Release | : 2017 |
Genre | : Bridges |
ISBN | : |
An Unmanned Aircraft System (UAS) is defined by the Federal Aviation Administration (FAA) as an aircraft operated without the possibility of direct human intervention from within the aircraft. Unmanned aircraft are familiarly referred to as drones, and the names can be used interchangeably. The UAS is controlled either autonomously or with the use of a remote control by a pilot from the ground. These UASs offer a wide range of imaging technologies which include photographic stills, video, and infrared sensors that can be viewed live and later processed to assist with inspections. Bridge inspections often pose logistical challenges to efficiently and effectively inspect a wide variety of structure types; therefore, inspection by UAS is a solution that can be safe and cost-effective. The Minnesota Department of Transportation (MnDOT) and Collins Engineers have been researching the use of UASs as a tool for bridge inspections in a multi-phase project. This phase of the study research identified potential applications of UAS technology to aid in bridge inspections and is a continuation of a previous study by the MnDOT.
Author | : Matthew N. Gillins |
Publisher | : |
Total Pages | : 50 |
Release | : 2016 |
Genre | : Bridges |
ISBN | : |
Bridge inspections are vital for monitoring the health and serviceability of transportation infrastructure throughout the world. However, inspections can be logistically-challenging, expensive, and dangerous. For example, inspections may require climbing, as well as the use of scaffolding, ladders, rescue boats, bucket trucks, and/or under-bridge inspection vehicles. Small, multirotor unmanned aircraft systems (UAS) offer a potential means of overcoming or alleviating some of these challenges. Among the primary benefits of UAS for inspections are the ability to maneuver adeptly in 3D space, change view angles, and acquire high-resolution imagery, enabling the inspector to view (in real time and/or post-flight using post-processing enhancements, as needed) bridge elements in difficult-to-access locations, all while keeping both feet firmly on the ground. As transportation departments, inspection firms, and service providers increasingly recognize these potential benefits, interest in UAS for bridge inspections is growing rapidly. While a number of UAS bridge inspection projects have been documented in published reports and case studies, the rate of change of both UAS technology and associated regulations necessitates additional research and development, especially with regards to operational aspects of UAS bridge inspection. The purpose of this study was to develop, test and document an end-to-end operational workflow for UAS bridge inspections, with a particular focus on regulatory and safety aspects. Since it is recognized that UAS are simply one tool for this particular application, another key focus on this study was on investigating which aspects of bridge inspection can and cannot be aided by UAS. As part of the study, three bridges in Oregon, representing different bridge types, conditions and locations, were inspected using small, multirotor UAS.
Author | : Camille Kamga |
Publisher | : |
Total Pages | : 128 |
Release | : 2017 |
Genre | : Drone aircraft |
ISBN | : |
Unmanned aircraft systems (UAS) and unmanned ground systems (UGS) have the potential to change the way we perform some of transportation-related operations. Nowadays, opportunity arises to leverage various innovative technological capabilities to explore their use and value in real world operating environments. Specifically, exploring the capabilities of UAS, also called drones, and UGS in specific transportation areas appears to have significant potential. This report summarizes the literature review, performed by students from three schools within the University Transportation Research Center Consortium, documenting applications and demonstrations of UAS and UGS technologies and potential deployment opportunities for NYSDOT in the near future. Specifically, NYSDOT would like to assess the existing capabilities of these systems for responding to highway incidents including field surveying, accident information collection and reconstruction and other related requirements to clearing a highway incident. As part of this effort, NYSDOT would also like to explore other transportation applications for these devices such as bridge inspection, traffic monitoring, road construction and maintenance worker safety.
Author | : Kimon P. Valavanis |
Publisher | : Springer Science & Business Media |
Total Pages | : 552 |
Release | : 2008-02-26 |
Genre | : Technology & Engineering |
ISBN | : 1402061145 |
The past decade has seen tremendous interest in the production and refinement of unmanned aerial vehicles, both fixed-wing, such as airplanes and rotary-wing, such as helicopters and vertical takeoff and landing vehicles. This book provides a diversified survey of research and development on small and miniature unmanned aerial vehicles of both fixed and rotary wing designs. From historical background to proposed new applications, this is the most comprehensive reference yet.
Author | : Ignacio Hernandez |
Publisher | : |
Total Pages | : 96 |
Release | : 2016 |
Genre | : Bridges |
ISBN | : |
Applications for small unmanned aerial vehicles have exploded over the past decade. Small size, maneuverability, low cost, and versatility enable utilization for applications not readily accessible by traditional manned aircraft, such as bridge inspections. However, the challenges associated with conducting inspections in a safe, cost efficient manner currently exceed the benefits of using an unmanned aircraft for inspection. The development of a multirotor-based inspection aircraft capable of maintaining flight for over eight hours is presented. Flight results from a bridge inspection conducted in collaboration with the Missouri Department of Transportation (MoDOT) and Shafer, Kline, & Warren (SKW) bridge inspection crews are also discussed. Feedback and recommendations for inspection platform improvement from MoDOT and SKW inspectors was collected. Inspectors and flight crew identified challenges with camera exposure, dual pilotinspector remote control, and aircraft stability. As a result, a new inspection platform was developed allowing for wireless dual remote control and manual control of camera exposure. Finally, and most importantly, a new metric for quantifying UAS handling and pilot workload in GPS denied environments is introduced through rigorous flight testing and the use of a modified Cooper-Harper rating scale. Inspection of the bridge substructure prevented GPS lock and increased pilot workload. To mimic the effects of flying around a bridge flight testing is conducted at the UMKC parking garage where GPS lock is denied. The aircraft and inspection solutions discussed herein have demonstrated success for acquiring meaningful inspection data while conducting safe flight operations.
Author | : |
Publisher | : |
Total Pages | : 214 |
Release | : 2015 |
Genre | : Bridges |
ISBN | : |
The increasing costs of bridge inspections are a concern for the Minnesota Department of Transportation (MnDOT). The use of Unmanned Aerial Vehicles (UAV) may help alleviate these costs and improve the quality of bridge inspections. The overall goal of the UAV Bridge Inspection Demonstration Project was to study the effectiveness of utilizing UAV technology as it could apply to bridge safety inspections. The project team investigated the technology on four bridges located throughout Minnesota. The project team evaluated the UAVs effectiveness as it could apply to bridge inspections based on UAV field results. Various UAV capabilities were utilized to evaluate current technologies as they relate to use in bridge inspections. This study details the advantages and challenges of potentially using UAVs to aid in bridge inspection, an analysis of current and future UAV technologies as they relate to bridge inspection, and an analysis describing how current and future technologies adhere to the National Bridge Inspection Standards.