Conclusions
This research aimed to explore how construction equipment, such as cranes, can support project management.
Cranes can monitor other objects and cranes can also be monitored as well as their original work.
Therefore, the authors applied a two-stage literature review to search for state-of-the-art literature.
As a result, the authors found the follow.
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Conflict of Interest
The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.
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Discussion
Objectives of Monitoring
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How can computer vision improve construction progress monitoring?
Abstract Automating the process of construction progress monitoring through computer vision can enable effective control of projects.
Systematic classification of available methods and technologies is necessary to structure this complex, multi-stage process.
Using the PRISMA framework, relevant studies in the area were identified.
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How to implement progress monitoring on a construction project?
For implementing progress monitoring on a construction project, it is recommended that the pipeline and components required are selected based on the chosen level.
Several areas for further research were discussed in the previous section.
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Introduction
A construction project involves a variety of stakeholders, including the client, the architect, the general contractor, sub-contractors, material suppliers, equipment manufacturers, and so on.
The organizational body where they form for each project to carry out construction activities is temporary, so there is a high degree of uncertainty in the e.
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Past Studies
Above mentioned issues can be found in several past papers.
Until now, progress management has relied too much on human experience and intuition.
As a result, a lot of time has been spent acquiring and analyzing the necessary data.
Also, because it is done subjectively, data errors frequently occur (Davidson and Skibniewski, 1995; Cheng and Chen, 2.
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Publisher’S Note
All claims expressed in this article are solely those of the authors and do not necessarily represent those of their affiliated organizations, or those of the publisher, the editors and the reviewers.
Any product that may be evaluated in this article, or claim that may be made by its manufacturer, is not guaranteed or endorsed by the publisher.
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Research Methodology
The acquisition of the publications was in two stages: comprehensive literature search and literature filtering.
In comprehensive literature search, the authors utilized Google Scholar by Google and ScienceDirectby Elsevier to find related publications and searched for relevant articles using the keyword search.
The authors added words or phrases r.
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Results
Technology for Monitoring
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What is construction site monitoring?
One of the main purposes of construction site monitoring is to identify the problems and mistakes before and during the project, in order to prevent the occurrence of errors or non-compliance with the design or technical standards.
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What is progress monitoring & reporting?
Progress monitoring and reporting are essential to construction project management.
They involve tracking aspects of the project that affect time and cost:
labor tasks materials equipment RFIs change orders submittals and more.
Tracking progress can be challenging, given the number of moving parts and how interconnected they are.
Condition monitoring is the process of monitoring a parameter of condition in machinery, in order to identify a significant change which is indicative of a developing fault.
It is a major component of predictive maintenance.
The use of condition monitoring allows maintenance to be scheduled, or other actions to be taken to prevent consequential damages and avoid its consequences.
Condition monitoring has a unique benefit in that conditions that would shorten normal lifespan can be addressed before they develop into a major failure.
Condition monitoring techniques are normally used on rotating equipment, auxiliary systems and other machinery like belt-driven equipment,, while periodic inspection using non-destructive testing (NDT) techniques and fit for service (FFS) evaluation are used for static plant equipment such as steam boilers, piping and heat exchangers.