• Korean Journal of Construction Engineering and Management
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• v.8 no.4
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• pp.194-202
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• 2007

The earth work has been improved with the utilization of capital intensive equipments. However, work performance is not satisfactory yet due to its experience-oriented characteristics in selecting the combination of earth work equipments. Therefore, it is required to study on appropriate and systematic methods in selecting a set of equipments for earth work in order to optimize the cost and time as well as to improve the productivity. The objectives of this paper are as followed : (1) developing an optimum combination model of earth work equipments by using a system dynamics technique. (2) testing and evaluating the model by the sample application to a case study. The research is limited to the work of excavating, loading and hauling. The suggested model is proved in practice, so it will assist engineers to make the proper decision for equipment planning of earth work.

• Proceedings of the Korean Institute Of Construction Engineering and Management
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• 2006.11a
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• pp.467-470
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• 2006

The earth volume which is the basis of all the construction has gone through great development so far with the use of construction machine; however, systematic studies on the related area is in need since the appropriate compound engineering method of earth volume equipments which is a key factor for shortening the project duration and cost reduction is not systematically established and it is dependent on experience. Reasonable mechanical earth volume should take into consideration of performance and characteristics of the equipment, the kind of project, scale and conditions in advance. Also, the optimum compound engineering should be planned by selecting several available scales of equipment. In this study, the earth volume estimate model is established for optimum compound engineering of earth volume equipment for mechanized earth volume equipment loading and moving stage among many stages of earth volume task using system dynamics technique. The optimum compound engineering model of the earth volume equipment produced as a result of this is expected to make reasonable decisions in the shortest time in selecting earth volume facility.

• KSCE Journal of Civil and Environmental Engineering Research
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• v.34 no.3
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• pp.999-1006
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• 2014

$CO_2$ emission factor for earthwork equipment was made based on fuel consumption quantity using IPCC carbon emission factor. This is presented through the carbon emission estimating guideline each facilities by the Ministry of Land, Infrastructure and Transportation in 2011. However, this method has the defect which don't apply the various condition of site. Therefor it needs the new emission factor supplemented these defects. This study will tries to estimate $CO_2$ emission with the direct measurement method using concentration flow velocity measurement (C-FVM) for earth work equipment and present the new $CO_2$ emission factor for earth work equipment after compare with emission factor of the Ministry of Land, Infrastructure and Transportation.

• KSCE Journal of Civil and Environmental Engineering Research
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• v.37 no.1
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• pp.167-174
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• 2017

Earthwork is to level or excavate the ground to provide a space for installing structures. A large number of construction equipment such as excavators, dozers, and dump trucks are put into the earthwork operation. The equipment operators need to constantly communicate with each other during the operation. In the earthwork operation, therefore, the process should be analyzed on the equipment operation to improve the effectiveness of communication. The objective of this study is to understand the earthwork process, and improve the effectiveness of data interface by adopting the smart glass technology. In the study, the general process of earthwork is modeled using a process diagram. The data that is generated during the process is modeled using a class diagram. A database is developed to store and reuse the data. The smart glass technology is adopted to develop a data interface during the earthwork operation. The result of the prototype showed that the technology can improve the data interface during excavation overcoming the shortcomings of hand or sound signals.

• Proceedings of the Computational Structural Engineering Institute Conference
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• 2011.04a
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• pp.375-378
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• 2011

건설공사에서 토공사가 차지하는 비중은 타공종에 비하여 높다. 즉 건설공사의 생산성을 향상시키기 위하여 토공사를 중점적으로 관리하는 일은 매우 중요하다고 할 수 있다. 그러나 현재의 토공 시스템은 굴삭 조종자와 현장 계획 관리자의 경험적 지식에만 의지하여 토공 계획을 수립하고 있는 실정이며, 또한 노동 집약적 토공작업의 한계를 벗어나지 못하는 현실로 인하여 토공사를 관리함에 어려움이 있다. 이러한 당면 과제를 극복하고자 BIM 기반의 토공 시스템에 대하여 소개하고자 한다. 본 논문에서는 굴삭 장비와 연계하는 토공 계획과 운영 자동화 시스템에 대하여 주로 다루게 된다. 굴삭 작업 계획 생성 시스템, 장비 조종 인터페이스, 웹 기반 Project Management Information System(PMIS)이 개발되는 과정에서 적용된 BIM 요소기술에 대하여 살펴본다.

• KSCE Journal of Civil and Environmental Engineering Research
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• v.35 no.3
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• pp.699-706
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• 2015

Earthwork is executed to provide a space for facility structures, and plays an important role in the construction operation. Contractors usually put a combination of construction vehicles to execute the earthwork operation. These construction vehicles need to interface with each other for productivity improvement. The objective of this study is to prototype an earthwork supportive system for information interface between construction vehicles. The study is conducted in a sequence of 1) analysis of information interface during earthwork; 2) data modeling of earthwork attributes; and 3) development of a prototype for the earthwork supportive system. The output screen images of the prototype show that the earthwork supportive system can improve communication between construction vehicles by facilitating information interface during earthwork.

• Proceedings of the Korean Institute Of Construction Engineering and Management
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• 2007.11a
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• pp.921-924
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• 2007

토목, 건축과 관련된 노동현장은 여느 3D 업종들과 마찬가지로 숙련된 기능공의 부재 및 산업재해 발생으로 인해 어려움을 겪고 있으며 이를 극복하기 위한 노력을 계속하고 있다. 대표적인 토목공사인 토공 작업 역시 위험 혹은 유해한 작업환경으로 인해 토공장비의 안전사고 및 생산성과 품질저하가 발생하며 이를 방지하기 위한 장비의 지능화가 절실하게 요구되고 있다. 이를 위해 최근 지능형 굴삭 시스템 개발을 위한 연구가 진행되고 있으며, 토공작업은 일반적으로 광범위한 작업영역을 가지기 때문에 지능형 굴삭시스템의 개발을 위해서는 효율적인 작업을 수행할 수 있도록 하는 작업계획의 수립이 매우 중요하다. 본 연구에서는 작업계획의 대상을 굴삭로봇과 토사로 구분하였으며, 글로벌 영역에서 단위작업 영역, 로컬 영역으로의 분할을 통해 전체 작업 진행에 대해 효율적으로 작업계획을 수립할 수 있도록 구성하여 계획단계에서부터 토공작업 자동화 및 효율와에 기여하고자한다. 토공작업계획 시스템은 토공 작업자 및 감독자의 작업 특성 및 노하우를 컴퓨터, 즉 두뇌에 부여함으로써 숙련된 장비조종자의 작업 방법 및 특성을 반영하여 토공 작업 프로세스 모델링을 구축하고 실제 작업환경상의 센서에 의해 측정된 데이터를 실제 작업환경과 동일하게 모델링된 컴퓨터내의 가상환경을 바탕으로 영역분할, 최적 플랫폼 위치선정 및 작업 순차생성을 통해 최적의 토공작업계획을 수립할 수 있도록 한다.

• Proceedings of the Korean Institute of Building Construction Conference
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• 2010.05a
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• pp.201-205
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• 2010

Earthwork is an essential initial work discipline in construction projects and open to significant impacts of several factors such as weather, site conditions, soil conditions, underground installations and available construction machinery, calling for careful planning by managers. However, selection and combination of construction machinery and equipment for earthwork still depends on experience or intuition of managers in construction sites, with much room left for proper management in terms of cost, schedule and environmental load control. This research aims to analyze the performance of earthwork equipment and establish relations among various factors affecting a model for optimizing selection and combination of earthwork equipment as a precursor to the development of such model. We expect the conclusions herein to contribute to optimizing selection and combination of earthwork equipment and provide basic inputs for the development of applicable model that can save costs, reduce schedule and mitigate environmental load.

• KSCE Journal of Civil and Environmental Engineering Research
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• v.35 no.2
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• pp.501-514
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• 2015

Earthwork is a basic operation for all forms of civil works and affects construction time, cost and productivity. It is a mechanized operation that needs various construction equipment as a group and uses a lot of fuel for construction equipment. But, the problem is that earthwork operation is usually performed by equipment operator's heuristic and intuition, which can cause low productivity, high fuel consumption, and high carbon dioxide emission. As one of solutions for this problem, the fleet management system for construction equipment is suggested for effective earthwork planning, optimal equipment allocation, efficient machine operation, fast information exchange, and so forth. The purpose of this research is to suggest core methods for developing the equipment fleet management system. The methods include 3D solid parametric model generation, soil distribution using Cctree data structure, equipment fleet construction and equipment fleet operation. A simulation test is performed to verify the effectiveness of the equipment fleet management system in terms of equipment operating ratio, fuel usage, and $CO_2$ emission.

• Journal of Korean Society for Geospatial Information Science
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• v.18 no.1
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• pp.63-72
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• 2010

In this study, an earth work design program which will improve the efficiency of earth work and enable to carry out the design using 3D Geospace-based earth work modelling in design stage was developed. Estimate of accurate earth work volume is achievable using 3D grid DEM, and based on this, a mass calculation chart was developed for movement of earth and equipment. In consideration for the resources for various construction equipments needed for civil engineering works, soil conversion and the passage is displayed. In addition, the result is restored in the form of open API-based KLM to make it possible for the users to identify the progress of the construction, thereby enhancing the intuitive understanding of three-dimensional visualization and making it easier to share the result of the analysis.