Towards Autonomous Bridge Inspection: Sensor Mounting Using Aerial Manipulators

Ivanović, Antun; Marković, Lovro; Car, Marko; Duvnjak, Ivan; Orsag, Matko

doi:10.3390/app11188279

Cited by 17 publications

(11 citation statements)

References 32 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…As mentioned above, object mounting is also a part of the project ASAP which requires the assembly of the MUs directly on the bridge, which then record and collect vibrations over a longer period of time, for example. For this purpose, intelligent UAVs are being developed that can cooperatively perform such assembly [7]. While [7] addressed the question of how such an assembly can be performed by UAVs on bridges, this paper presents a concept of how an UAV can find and remove the MU again, which is an unresolved issue.…”

Section: Robotic Armmentioning

confidence: 99%

Object Localization by Construction of an Asymmetric Isobody of the Magnetic Gradient Tensor Contraction Using Two Identical Permanent Magnets

et al. 2023

View full text Add to dashboard Cite

This paper deals with predictive maintenance of infrastructure objects, focusing on the inspection of bridges. To achieve this goal, unmanned aerial vehicles place measuring units for data collection at different points of the bridge. This work deals with the question of how these measuring units can be found and removed by them later. For this purpose, a magnetic localization method based on the STAR method is presented. In contrast to the STAR method, which only detects the center of a magnetic target, a modified version called SRIOD is implemented here, where the orientation of the magnetic target can also be detected. This is essential information if the unmanned aerial vehicle is to grab the measuring unit with a robotic arm. In this regard, two identical permanent magnets are integrated into the measuring unit, whose gradient tensor contraction of the magnetic flux density distribution has a directed asymmetric surface when considering the contours of constant values. This creates a magnetic invisible reference plane that can be detected with a magnetic gradiometer. The method is verified both in simulation and experimentally in a laboratory setup.

show abstract

Section: Robotic Armmentioning

confidence: 99%

Object Localization by Construction of an Asymmetric Isobody of the Magnetic Gradient Tensor Contraction Using Two Identical Permanent Magnets

et al. 2023

View full text Add to dashboard Cite

show abstract

“…The research of UAM applications has gained some achievements in the last decade, including grabbing stationary or moving objects [ 10 , 11 ], picking up and transporting goods [ 12 , 13 , 14 ], inspecting infrastructure [ 15 , 16 ], and installing and retrieving equipment [ 17 , 18 , 19 , 20 ]. Continuous contact operations cause the UAM to lose its degree of freedom in a specific direction, so the stability control of the UAM can be more complicated.…”

Section: Introductionmentioning

confidence: 99%

Robust Control Based on Adaptive Neural Network for the Process of Steady Formation of Continuous Contact Force in Unmanned Aerial Manipulator

Fang

Mao

Shen

et al. 2023

Sensors

View full text Add to dashboard Cite

Contact force control for Unmanned Aerial Manipulators (UAMs) is a challenging issue today. This paper designs a new method to stabilize the UAM system during the formation of contact force with the target. Firstly, the dynamic model of the contact process between the UAM and the target is derived. Then, a non-singular global fast terminal sliding mode controller (NGFTSMC) is proposed to guarantee that the contact process is completed within a finite time. Moreover, to compensate for system uncertainties and external disturbances, the equivalent part of the controller is estimated by an adaptive radial basis function neural network (RBFNN). Finally, the Lyapunov theory is applied to validate the global stability of the closed-loop system and derive the adaptive law for the neural network weight matrix online updating. Simulation and experimental results demonstrate that the proposed method can stably form a continuous contact force and reduce the chattering with good robustness.

show abstract

“…Similar conclusions were drawn by Koch et al [8] after analysing different large concrete structures (Figure 1). Many efforts are being successfully made to improve the quality and autonomy of UAS-enabled bridge inspections [9][10][11][12][13][14]. Nevertheless, a systematic methodology for inspections is needed to improve the overall quality of bridge inspections.…”

Section: Introductionmentioning

confidence: 99%

“…To avoid the lack of information and to make the available information easier to understand, it is also important to systematize data collection when viewing the images. A clear and systematized protocol using UAV for bridge inspection is also Many efforts are being successfully made to improve the quality and autonomy of UAS-enabled bridge inspections [9][10][11][12][13][14]. Nevertheless, a systematic methodology for inspections is needed to improve the overall quality of bridge inspections.…”

Section: Introductionmentioning

confidence: 99%

A New Methodology for Bridge Inspections in Linear Infrastructures from Optical Images and HD Videos Obtained by UAV

et al. 2022

View full text Add to dashboard Cite

Many bridges and other structures worldwide present a lack of maintenance or a need for rehabilitation. The first step in the rehabilitation process is to perform a bridge inspection to know the bridge′s current state. Routine bridge inspections are usually based only on visual recognition. In this paper, a methodology for bridge inspections in communication routes using images acquired by unmanned aerial vehicle (UAV) flights is proposed. This provides access to the upper parts of the structure safely and without traffic disruptions. Then, a standardized and systematized novel image acquisition protocol is applied for data acquisition. Afterwards, the images are studied by civil engineers for damage identification and description. Then, specific structural inspection forms are completed using the acquired information. Recommendations about the need of new and more detailed inspections should be included at this stage when needed. The suggested methodology was tested on two railway bridges in France. Image acquisition of these structures was performed using an UAV for its ability to provide an expert assessment of the damage level. The main advantage of this method is that it makes it possible to safely accurately identify diverse damages in structures without the need for a specialised engineer to go to the site. Moreover, the videos can be watched by as many engineers as needed with no personal movement. The main objective of this work is to describe the systematized methodology for the development of bridge inspection tasks using a UAV system. According to this proposal, the in situ inspection by a specialised engineer is replaced by images and videos obtained from an UAV flight by a trained flight operator. To this aim, a systematized image/videos acquisition method is defined for the study of the morphology and typology of the structural elements of the inspected bridges. Additionally, specific inspection forms are proposed for every type of structural element. The recorded information will allow structural engineers to perform a postanalysis of the damage affecting the bridges and to evaluate the subsequent recommendations.

show abstract

Towards Autonomous Bridge Inspection: Sensor Mounting Using Aerial Manipulators

Cited by 17 publications

References 32 publications

Object Localization by Construction of an Asymmetric Isobody of the Magnetic Gradient Tensor Contraction Using Two Identical Permanent Magnets

Object Localization by Construction of an Asymmetric Isobody of the Magnetic Gradient Tensor Contraction Using Two Identical Permanent Magnets

Robust Control Based on Adaptive Neural Network for the Process of Steady Formation of Continuous Contact Force in Unmanned Aerial Manipulator

A New Methodology for Bridge Inspections in Linear Infrastructures from Optical Images and HD Videos Obtained by UAV

Contact Info

Product

Resources

About