Human-Robot Integration for Pose Estimation and Semi-Autonomous Navigation on Unstructured Construction Sites

Feng, Chen; Fredricks, Nicholas; Kamat, Vineet R.

doi:10.22260/isarc2013/0148

Cited by 8 publications

(4 citation statements)

References 16 publications

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“…Feng et al [12] identified the rugged, dynamic, and unstructured environment of the construction worksite as well as the uncertainty and evolving sequence of on-site events as unique challenges that stand in the way of widespread use of robotics and soft automation in construction. They noted that the challenge for the robotics industry that wants to cater to the construction sector is to design and build robots that are capable of sensing and adapting to environmental changes, in addition to the ability to replicate basic human motion.…”

Section: Drivers For and Challenges To Construction Automationmentioning

confidence: 99%

A Synopsis of 3D Printing and Robotics Applications in Construction

Elhouar¹,

Alzarrad²,

Elhouar³

2019

Proceedings of the Creative Construction Conference 2019

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One of the difficulties hindering the application of 3D printing technology in construction is related to the versatility of materials and components used to produce a building or other structure. The prospect of using this technology is further complicated by the sheer size of the edifices to be constructed. While 3D printing a mechanical component can now be done in someone's basement with affordable and readily available equipment, applying the same technology to produce large structures and building components is a challenge. In recent years, researchers have been working towards overcoming this challenge by trying to develop new construction materials and methods that would be more suitable for the application of 3D printing technology. One of the approaches that can be considered is the combination of robotics technology with 3D printing to automate construction activities. The use of robots in construction has been proposed long before 3D printing became possible or known but never gained widespread construction site usage, mainly because of the difficulty associated with the automation of most construction tasks. However, the combination of 3D printing with robotics may be the way to change that. In this paper, the authors examine the suitability of 3D printing in a number of construction tasks and present ideas that modify established construction methods to make them more suitable for automation. The authors then examine how the introduction of robotics in conjunction with 3D printing to the construction site may make it possible to automate a number of construction tasks. Some of the benefits of such automation include lower safety risks, improved control over construction schedules, more economical construction, and a better ability to build in remote areas and challenging environments. © Peer-review under responsibility of the scientific committee of the Creative Construction Conference 2019.

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Section: Drivers For and Challenges To Construction Automationmentioning

confidence: 99%

A Synopsis of 3D Printing and Robotics Applications in Construction

Elhouar¹,

Alzarrad²,

Elhouar³

2019

Proceedings of the Creative Construction Conference 2019

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show abstract

“…However, in these works, the entities to be tracked were manually marked. Additionally, application of fiducial markers has been suggested by several researchers [24] but the systems are infrastructure-dependent and require the markers to be attached to various surfaces on construction sites. This challenges their applications for large-scale implementations [5].…”

Section: Computer Vision Technologiesmentioning

confidence: 99%

Infrastructureless approach for ubiquitous user location tracking in construction environments

Khoury

Chdid

Oueis

et al. 2015

Automation in Construction

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“…As evidenced by the evolution of knowledge representation within these systems, ongoing efforts are directed towards refining information structuring and utilization to enhance automation capabilities throughout the design process. However, unlike controlled environments in manufacturing, where automation flourishes, the dynamics of unstructured environments introduce complexities characterized by unclear task definitions and unknown variables [6]. These unique challenges inherent in unstructured environments significantly impede the efficiency and adaptability of automation systems.…”

Section: Introduction 11 Motivationmentioning

confidence: 99%