• 국제학술발표논문집
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• The 3th International Conference on Construction Engineering and Project Management
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• pp.579-586
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• 2009

4D simulation integrates the 3 dimensional model of a building with the construction schedule, and it leads to the possibility of virtually checking the construction process and the building itself in advance. However, the existing problem of 4D simulation is the difference between the demands of architects, engineers, and construction site workers in 4D simulation. This study suggests the possible way to enhance the availability of 4D simulation, considering more the practical demands from the construction site. In order to conduct this study, we build a 3D BIM model of a business-residential complex and link the model with the pre-defined construction schedule in order to make a 4D simulation. This study concludes with the optimized 4D simulation methodology based on BIM model considering the demands in perspective of the construction site. It would contribute to the harmonic collaboration among architects, engineers, and labors in the construction site when using 4D simulation based on BIM model.

• 한국BIM학회 논문집
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• 제3권4호
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• pp.11-18
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• 2013

Modular technology has become a major issue of the construction industries to enhance their productivity. Modular bridge construction generally requires the collaboration between the contractor, designer, fabricator and constructor. Therefore, a readily accessible information model based on BIM technology should be provided for their communication during a construction project life-cycle. In this study, BIM based 3D information modeling was carried out for the modular bridge pier. First, the product breakdown structure (PBS) and level of detail (LOD) of the pier were defined. Based on them, 3D models were created by using parametric modeling method. In addition, database was constructed for the exchange of geometry and property data of 3D models. Finally, application areas of 3D information model were suggested, including the quantity estimation and the 4D simulation.

• 한국BIM학회 논문집
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• 제6권4호
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• pp.27-34
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• 2016

A Building Information Model (BIM) is an attempt to simulate the process of building structures in a three-dimensional (3D) digital space. While the technology is usually applied to structured buildings, bridges, and underground facilities, it is rarely applied to an unstructured environment of earthwork operations. If a BIM is used for earthworks, the 3D simulation can be used for construction equipment guidance and earthwork management. This paper presents a real-time, 3D earthwork BIM that provides a 3D graphical simulation of excavators in conjunction with geographic modeling. Developing a real-time, 3D earthwork BIM requires handling a variety of factors, such as geographical information and vehicular movement. This paper mainly focuses on the management of these attributes and provides a database design for storing and retrieving data. In an example application, a prototype of the 3D earthwork BIM is presented to understand what it would provide when used during earthwork operations at a construction site.

• 한국BIM학회 논문집
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• 제4권3호
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• pp.1-9
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• 2014

As BIM application continues to increase in civil engineering, in this study, 3D information model for RC(Reinforced Concrete) bridge pylon was developed and verified its effectiveness at the structural-design stage. To define 3D information model of RC A-Type pylon, characteristics of pylon were analyzed and 3D model structure was constructed. The 3D information model, one of the core product of BIM, manages all information generated during all life-cycle of a structure and consequently maximizes the efficiency of utilizing information. Also, this study proposes interface module between input data in structural analysis and 3D model of RC pylon. The module can create the input data for non-linear structural analysis. It is essential to study on method of developing 3D information model and propose a structural analysis model by utilizing 3D model for the effective use of BIM techniques in construction industry. The results of this study can be used as the base data for developing the 3D information model of RC pylon in the structural analysis field.

• 한국건축시공학회지
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• 제22권4호
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• pp.347-358
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• 2022

국내 건축물 설계 및 시공단계에서의 BIM 적용에 대한 건설 전반적 운영의 기대치인 설계 BIM의 재활용 및 시공단계에서 필요한 견적, 공정 등의 정보 추출 및 활용을 만족하기에는 연계되는 모바일 기술이나 단말기기의 현장 보급 및 적용이 부족한 상태이다. 따라서 본 연구에서는 이러한 BIM 세부 업무 프로세스에 대해 모바일 기술 적용의 4D 시뮬레이션 및 Test-Bed 신축건축물 대상으로 기획·계획·기본·실시설계 및 시공단계에서 3차원 3D와 공정관리 4D 시뮬레이션 및 5D 물량산출 BIM 모델과 라이브러리를 구축하고, 시공단계에서 BIM 모델을 통한 간섭체크 등 다양한 시공성 검토를 보다 효과적으로 활용하는 건설업무의 BIM 프로세스에 대한 표준화 수립을 제시하는데 목적이 있다.

• 대한토목학회논문집
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• 제42권6호
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• pp.861-868
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• 2022

건설공사의 시공과정에 BIM을 적용하는 목적은 시공 간섭의 파악과 함께 공사일정의 경과에 따른 시공현황의 시각화가 주요 이유이다. 4D시뮬레이션은 이러한 목적의 수행 기능이며, 이를 위해서는 공정별 시작 및 종료일자와 해당 공정의 3D모델이 갖추어져야 하고, 실무적 편리성을 확보하기 위해서는 이러한 기본정보의 활용이 간편한 기능 구성이 필요하다. 본 연구에서는 4D 모델 구성을 간소화하기 위해 설계단계에서 제작된 BIM 모델의 최소한의 속성정보를 활용하여 시공단계에 활용 가능한 공정 정보를 군집알고리즘을 이용해 생성하며 실제 공정관리 정보로서의 활용성을 분석한다.

• 한국BIM학회 논문집
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• 제8권2호
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• pp.41-50
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• 2018

The current study focused on the utilization of building information modeling (BIM) data in steel-frame structures, which help to reduce project durations because they employ prefabricated structural members that are assembled on-site. In addition, a business process model was proposed using BIM data collected during the preconstruction, structural steel fabrication, and on-site construction phases of an actual steel-frame project. The ultimate expectation is that BIM data support at each phase, as well as the increased understanding among project participants, will result in an increase in project management productivity. The results from the current study are summarized as follows: To implement a BIM capable of application to steel-frame projects and data utilization, existing theories were studied to develop the construction project steps, both generally into the preconstruction (A1), steel fabrication (A2), and on-site construction phases, (A3) and specifically into 19 BIM-applicable phases. Based on the derived BIM-applicable phases, the model elements of the BIM object were identified, and the shortcomings of existing steel-frame projects were ameliorated, resulting in an improved data flow model. Moreover, for the proposed BIM data flow to progress efficiently, the BIM specialist needs to be well-acquainted with the phase-specific three-dimensional (3D) model output, and the infrastructure to construct an error-free 3D model must be provided. Based on the actual construction example, the BIM data utilized steel-frame projects - via production reports, clash checks, two-dimensional (2D) drawings, four-dimensional (4D) simulations, and 3D scanning - to make cooperation and communication among participants easier.

• 한국BIM학회 논문집
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• 제12권4호
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• pp.19-31
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• 2022

With the development of 3D-based CAD (Computer Aided Design), attempts at freeform building design have expanded to small and medium-sized buildings in Korea. However, a standardized system for continuous utilization of shape data and BIM conversion process implemented with 3D-based NURBS is still immature. Without accurate review and management throughout the Freeform building project, interference between members occurs and the cost of the project increases. This is very detrimental to the project. To solve this problem, we proposed a continuous utilization process of 3D shape information based on BIM parameters. Our process includes algorithms such as Auto Split, Panel Optimization, Excel extraction based on shape information, BIM modeling through Adaptive Component, and BIM model utilization method using ID Code. The optimal cutting reference point was calculated and the optimal material specification was derived using the Panel Optimization algorithm. With the Adaptive Component design methodology, a BIM model conforming to the standard cross-section details and specifications was uniformly established. The automatic BIM conversion algorithm of shape data through Excel extraction created a BIM model without omission of data based on the optimized panel cutting reference point and cutting line. Finally, we analyzed how to use the BIM model built for automatic conversion. As a result of the analysis, in addition to the BIM utilization plan in the general construction stage such as visualization, interference review, quantity calculation, and construction simulation, an individual management plan for the unit panel was derived through ID data input. This study suggested an improvement process by linking the existing research on atypical panel optimization and the study of parameter-based BIM information management method. And it showed that it can solve the problems of existing Freeform building project.

• 대한건축학회연합논문집
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• 제21권4호
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• pp.15-26
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• 2019

In recent years, researchers are increasingly trying to use BIM-based 3D models for BIM nD design such as 4D (3D + Time) and 5D (4D + Cost). However, there are still many problems in efficiently using process management based on the BIM information created at each design stage. Therefore, this study proposes a method to automate 4D and 5D design support in each design stage by using BIM-based Dynamo algorithm. To do this, I implemented an algorithm that can automatically input the process information needed for 4D and 5D by using Revit's Add-in program, Dynamo. In order to support the 4D design, the algorithm was created to enable automatic process simulation by synchronizing process simulation information (Excel file) through the Navisworks program, BIM software. The algorithm was created to automatically enable process simulation. And to support the 5D design, the algorithm was developed to enable automatic extraction of the information needed for mass production from the BIM model by utilizing the dynamo algorithm. Therefore, in order to verify the 4D and 5D design support algorithms, we verified the applicability through consultation with related workers and experts. As a result, it has been demonstrated that it is possible to manage information about process information and to quickly extract information from design and design changes. In addition, BIM data can be used to manage and input the necessary process information in 4D and 5D, which is advantageous for shortening construction time and cost. This study will make it easy to improve design quality and manage design information, and will be the foundation for future building automation research.

• 대한토목학회논문집
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• 제33권5호
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• pp.2069-2079
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• 2013

건설 환경에 맞춤형 대응방안으로 최근 BIM(Building Information Modeling)이 대두되고 있으나, 대다수의 건설사에서 실제 현장에 BIM을 도입하여 운용하는 사례는 저조한 실정이다. 이러한 원인으로는 다양한 건설 환경에서 BIM 적용에 의한 정량적인 효과가 파악될 수 있는 실증데이터가 부족한 점도 주요 부분이 되고 있다. 이러한 요인은 결국 BIM 투자 효과에 대한 확신을 갖지 못하게 되고, 회사의 적극적 투자도 유도하지 못하게 된다. 건설사로 하여금 BIM 적용을 유도하기 위해서는 BIM의 활용성을 정량적으로 평가할 수 있는 평가체계가 구축될 필요가 있다. 본 연구에서는 건설사들의 BIM 도입과 운용에 따른 활용정도를 정량적인 수치로 평가할 수 있는 방안을 제시하고자 한다. 이를 위해 건설분야 BIM 기술 중 실무 활용성이 높은 4D CAD를 대상으로 BSC (Balanced Score Card)에 의한 평가지표와 평가 모형을 구축하여 적용성을 분석하며, 향후 BIM 기능 전체의 평가지표로 활용성을 검증하고 있다. 이를 통해 건설업체들은 4D CAD 기술의 활용정도와 운영상 취약점을 파악함으로써 기술 도입을 위한 의사결정의 기초자료로 활용될 수 있을 것이다.