Dong Jun Yeom scite author profile

Dong Jun Yeom

5Publications

12Citation Statements Received

3Citation Statements Given

How they've been cited

How they cite others

Affiliations

Korea Institute of Civil Engineering and Building Technology

Publications

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Development of a Safety and Health Expense Prediction Model in the Construction Industry

Yeom¹,

Lee²,

Oh³

et al. 2015

Korean Journal of Construction Engineering and Management

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:The importance of the appropriate use and procurement of Safety and Health Expense has been increasing along with the recent increase of construction projects in height, size and complexity. However, the current standards for deducting the Safety and Health Expense have shown limitations in applying the properties and environment of the construction project due to its Safety and Health Expense Rate's classification method. Therefore, the purpose of this study is to develop a prediction model for the Safety and Health Expense that enables the consideration of different environment and properties of construction projects. The study uses multiple regression analysis to analyze the Safety and Health Expense of Ordinary(A) of less than 0.5 billion WON. The research results have shown that the use of multiple regression analysis reduces the error rate to 4.38% which the current standard calculation method have shown 18.48%. Therefore, the use of the suggested model provides reliable Safety and Health Expense prediction values that considers the properties of the project. It is expected that the results of this study contributes to the effective safety management by providing the appropriate amount of Safety and Health Expense to the project. In this study, only projects of less than 5 billion WON have been considered in the analysis. Therefore, more data is required for future studies to suggest an overall Safety and Health Expense prediction model that covers the whole construction industry.

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A Study of the Decision Support Model to Select an Appropriate Alternative Plan in Apartment Remodeling

Hong¹,

Yeom²,

Choi³

et al. 2017

Journal of the Architectural Institute of Korea Structure &

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Method for establishing ground control points to realize UAV-based precision digital maps of earthwork sites

Park

Yeom

2021

Journal of Asian Architecture and Building Engineering

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The Development of Around View Monitoring System Pilot Type for Construction Equipment

Yeom¹,

Seo²,

Yeom³

et al. 2016

Korean Journal of Construction Engineering and Management

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Recently, the interest on applying AVM(Around View Monitoring) systems in construction equipments have been increasing due to the demand for better control, work efficiency and safety. Most of the existing AVM systems have been developed focusing on the application in automobiles and only several AVM systems have been developed for construction equipments. However, the original technology of AVM remained the same as in the automobiles that failed to consider the main properties of construction equipments and suggest appropriate range of AVM display (Top-view). Therefore, the purpose of this study is to suggest a pilot type of AVM system for construction equipment. Accordingly, literature review, deduction of main consideration factors, selection of sensors, system design, algorithm development of a pilot type of AVM system for construction equipment have been conducted. A laboratory experiment has also been conducted for the deduction of further improvements. As a result, a minimum image refresh rate of 20 fps has been achieved that clearly reflects the actual situation of the equipment and also, the actual motions of Boom, Arm, Bucket have been displayed appropriately on the AVM system based on the angle data collected by sensors. However, the experiment results have also shown that the following tasks still remain for future work: 1)Improvement of AVM image interpolation, 2)Development of calibration module for variety construction equipment.

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Selection of an Optimal Conception Design for the Development of Noise-reduced System Aluminum Form

Hong¹,

Yeom²,

Kim³

2016

Korean Journal of Construction Engineering and Management

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In Korea, a series of noise-reduced aluminum forms are being recently used in apartment housing construction. However, their complicated and time-consuming work processes, and the noise which is still generated due to the inherent property of aluminum when especially installing and dismantling them have been pointed out as a problem to be certainly solved for increasing their practical use in construction sites. The primary objectives of this study are proposing an optimal conceptual design of a newly designed noise-reduced aluminum form and verifying the technical feasibility by conducting a working mock-up drive experiment. Thus, conventional noise-reduced aluminum forms have been analyzed and three conceptual designs of a newly noise-reduced aluminum forms have been deducted. AHP has been applied to a survey data collected by interviewing field experts. A trade-off analysis results have shown that 'Noise-reduced System Aluminum Form with a Drop-down Floor Post and Adaptive Beam' the highest weights of safety(0.52), work convenience(0.54) and thus selected. The suggested conceptual design in this study improved problems of conventional system aluminum forms. It is also expected that the suggested design will be used as a reliable guideline for the actual development of an aluminum form that ensures noise-reduce, work convenience and labor safety.

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Dong Jun Yeom

Development of a Safety and Health Expense Prediction Model in the Construction Industry

A Study of the Decision Support Model to Select an Appropriate Alternative Plan in Apartment Remodeling

Method for establishing ground control points to realize UAV-based precision digital maps of earthwork sites

The Development of Around View Monitoring System Pilot Type for Construction Equipment

Selection of an Optimal Conception Design for the Development of Noise-reduced System Aluminum Form

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