• 한국건축시공학회지
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• 제22권2호
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• pp.161-169
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• 2022

정부[3]에서는 강관비계를 재래식 비계로 규정하고 일체형 작업발판인 시스템비계를 우선 설치하도록 제도화 하고 강관비계의 사용을 최대한 지양하고 있는 추세이다. 하지만 발전소, 플랜트 현장 등 장비의 진입이 안 되거나 본 구조물의 구조가 복잡한 곳, 그리고 지면에서 비계를 쌓아 올리지 못하는 곳에서는 강관비계를 설치하여 작업할 수 밖에 없다. 고소부위의 H-beam 구조물에 강관비계를 설치하여 작업자들이 안전하게 작업을 할 수 있도록 작업공간을 형성하기 위해서는 철골용 클램프의 성능은 매우 중요한 요소이다. 본 연구에서는 철골용 클램프의 설치 방향별 부재의 변형 및 인장하중에 대해 성능시험 및 구조해석 모델링을 통해 확인한 결과 설치 방향별 성능은 안전인증 기준인 인장하중 10,000N을 만족하는 것으로 확인 되었다. 다만 성능값은 만족하지만 부착부 누름 볼트의 변형발생이 확인되었고, 부착부 본체는 변형이 미미한 것으로 확인되었으므로 철골용 클램프는 하중이 전달되는 방향으로 설치하여 부착부 본체에 하중이 제대로 전달될 수 있도록 하는 것이 보다 안전한 방법이다.

• Smart Structures and Systems
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• 제29권1호
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• pp.1-16
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• 2022

Despite recent breakthroughs in deep learning and computer vision fields, the pixel-wise identification of tiny objects in high-resolution images with complex disturbances remains challenging. This study proposes a modified U-net for tiny crack segmentation in real-world steel-box-girder bridges. The modified U-net adopts the common U-net framework and a novel Self-Attention-Self-Adaption (SASA) neuron as the fundamental computing element. The Self-Attention module applies softmax and gate operations to obtain the attention vector. It enables the neuron to focus on the most significant receptive fields when processing large-scale feature maps. The Self-Adaption module consists of a multiplayer perceptron subnet and achieves deeper feature extraction inside a single neuron. For data augmentation, a grid-based crack random elastic deformation (CRED) algorithm is designed to enrich the diversities and irregular shapes of distributed cracks. Grid-based uniform control nodes are first set on both input images and binary labels, random offsets are then employed on these control nodes, and bilinear interpolation is performed for the rest pixels. The proposed SASA neuron and CRED algorithm are simultaneously deployed to train the modified U-net. 200 raw images with a high resolution of 4928 × 3264 are collected, 160 for training and the rest 40 for the test. 512 × 512 patches are generated from the original images by a sliding window with an overlap of 256 as inputs. Results show that the average IoU between the recognized and ground-truth cracks reaches 0.409, which is 29.8% higher than the regular U-net. A five-fold cross-validation study is performed to verify that the proposed method is robust to different training and test images. Ablation experiments further demonstrate the effectiveness of the proposed SASA neuron and CRED algorithm. Promotions of the average IoU individually utilizing the SASA and CRED module add up to the final promotion of the full model, indicating that the SASA and CRED modules contribute to the different stages of model and data in the training process.

• 한국지반신소재학회논문집
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• 제16권4호
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• pp.231-240
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• 2017

최근 도심지에서 인적, 물적 피해를 초래하여 경제적 손실을 수반하는 지반함몰이 빈번히 발생하고 있다. 이는 노후화된 상하수관거의 파손으로 인한 토사유실, 다짐불량, 수평굴착, 수직굴착시 토류벽 차수미흡 등 인위적 요인에 의하여 대다수 발생한다. 지반함몰은 탐사를 통하여 사전 복구 및 보강을 통해 예방이 가능하지만 현존하는 공법으로는 긴급복구에 적용하기에 어려움이 있다. 본 연구에서는 비개착식 지반공동 긴급복구 기술 개발을 위해 지하수흐름에 의한 지중 내 공동을 모사하는 모형실험을 진행하였으며, 조성된 공동 주변을 자체제작한 이완영역탐지기를 이용하여 탐지하므로써 이완영역 범위를 추정하였다. 또, 모사지반내 형성된 공동에 석고를 주입함으로써 교란영역과 이완영역을 구분하였다. 지하수 흐름에 의한 지중 공동의 형상은 선행연구 되었던 상수관거 파손시 내부 압력에 의해 조밀한 상대밀도의 지반에서 조성된 파괴모드III와 유사하였으며, 이완영역탐지기를 이용하여 탐지된 공동은 상부에서 아칭형태로 형성됨을 확인 할 수 있었다. 또한, 지반에서 공동 중심 상부에서 이완영역과 교란영역의 길이비는 2:1로 형성되며, 외력에 대한 전단저항력의 감소의 차이인해 구분될 수 있음을 확인하였다. 즉, 사전보수 및 보강시 주입재로 사용되는 재료의 팽창성을 고려하여 2차 피해가 발생되지 않도록 주의해야함을 확인 할 수 있었으며, 추후 추가적인 실험을 통하여 다양한 지반변형 상태를 추가로 실시할 예정이다.

• 지질공학
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• 제7권3호
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• pp.191-205
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• 1997

백제 시대의 대표적인 문화재들이 다수 출토된 무령왕릉을 포함한 송산리 고분군에 대한 고분벽체의 거동을 장기적으로 계측하여 분석하였다. 본 연구는 송산리 고분군의 안정성을 판단하여 보존대착을 수립하기위한 목적으로 이루어졌으며, 각 고분의 중요지점에 총 11개의 2축 경사변화측정센서를 설치하고 매 20분마다 자동계측하여 약 15개월 동안 (1996년 7월 14일~1997년 9월 30일) 관측을 실시하였다. 무령왕릉의 벽체거동은 연도입구의 호벽이 최대거동을 보여 직각변위(N-S Tilt) 성분이 2.3mm/m/yr로 남쪽방향인 전실쪽으로 거동하고 있는 것으로 밝혀졌다. 무령왕릉 현실 서측벽의 남쪽 등 상감 상부의 벽돌이 1971년 발굴 이후 남쪽으로 기울어진 병형을 보이며 고분구조가 남쪽 방향으로 거동함을 증명하고 있다. 현실 동측벽의 거동 또한 1.523mm/m/yr로 현실 내부로의 거동이 심한편이다. 더구나 우기에는 그 변위가 약 2배에 달하는 것으로 판단되어 고분군 주위의 지반이 침투수에 노출되는 우기에는 고분의 구조안전에 심각한 문제가 있는 것으로 판단된다. 5호분은 전체적으로 벽체의 전후방향 거동이 벽체의 전단방향 변위보다 크게 나타난다. 또한 틸트의 급격한 불연속은 없고 일정한 방향으로 계속적인 미약한 변동을 보이고 있다. 6호분 역시 건기의 최대 거동 수치가 8.8mm/m/yr로써 다른 고분의 우기시의 거동수치를 훨씬 초과한다. 고분벽체의 대.소의 변형 사건은 강수 및 온도변화와 밀접한 관련성이 있는 것으로 밝혀졌다. 온도변화에 의한 벽체거동의 영향은 고분내의 온도가 급격히 상승할 때는 온도가 일정하게 유지될 때보다 거동 비율이 훨씬 크다. 상승했던 온도가 다시 하강되면 벽체는 온도가 상승하기 전의 상태로는 돌아가지 않고 잔여변형을 발생시켜 영구변형으로 남게 되는 이력현상을 보이고 있다. 또한, 무령왕릉 주변의 지하수위 관측 결과 현재 고분축조부지의 배수체계가 원지반보다 불량함을 의미하여, 불량한 배수체계는 고분의 구조안전에 영향을 미치는 것으로 판단된다. 이와같이 고분군에 발생한 모든 변위들은 발굴 후 인위적인 환경변화와 지속적인 강우침투의 영향과 배수불랴으로 인한 주변지반 및 내벽의 물성치의 저하로 인하여 고분의 내벽에 상당량의 변위가 발생한 것으로 판단된다. 무령왕릉 벽체거동 특성 분석 결과 무엇보다 강우침투 및 지아수유입을 막는 차수대책이 시급하며, 고분내에 있는 제습기에 의한 상승효과흐 제거하여야 할 것으로 판단된다.

• 한국철도학회:학술대회논문집
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• 한국철도학회 2011년도 정기총회 및 추계학술대회 논문집
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• pp.1542-1549
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• 2011

The Transitional zone between bridge abutment and earthwork is one of the representative vulnerable zones in railway where differential settlements may take place due to the different supportive stiffness. Although transitional zones are managed with stricter standards than those of the other earthwork zones either in the design and construction stages, it is very difficult to prevent differential settlement perfectly. A three-dimensional numerical analyses were performed by applying train moving load in this study. The analytical model including abutments and earthwork zones was constituted with rail, sleepers, track concrete layer (TCL), hydraulic stabilized base (HSB), reinforced road bed, and road bed using railway and road base structure. The clamp connecting the rail and sleeper were also modeled as the element with spring coefficient. The train wheel is modeled in the actual size and moved on the rail with 300 km/hr speed. The deformation characteristics at each point of the rail and the ground were considered in detail when moving the train wheel. The analysis results were compared with those from the two-dimensional analysis without considering moving load. The research results show that displacement and stress were greater in the three-dimensional analysis than in other analyses, and the three-dimensional analysis with moving load should be performed to evaluate railway performance.

• 대한원격탐사학회지
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• 제30권3호
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• pp.383-397
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• 2014

Information technology advances are allowing conventional surveillance systems to be combined with mobile communication technologies, creating ubiquitous monitoring systems. This paper proposes monitoring system that uses smart camera technology. We discuss the dependence of interior orientation parameters on calibration target sheets and compare the accuracy of a three-dimensional monitoring system with camera location calculated by space resectioning using a Digital Surface Model (DSM) generated from stereo images. A monitoring housing is designed to protect a camera from various weather conditions and to provide the camera for power generated from solar panel. A smart camera is installed in the monitoring housing. The smart camera is operated and controlled through an Android application. At last the accuracy of a three-dimensional monitoring system is evaluated using a DSM. The proposed system was then tested against a DSM created from ground control points determined by Global Positioning Systems (GPSs) and light detection and ranging data. The standard deviation of the differences between DSMs are less than 0.12 m. Therefore the monitoring system is appropriate for extracting the information of objects' position and deformation as well as monitoring them. Through incorporation of components, such as camera housing, a solar power supply, the smart camera the system can be used as a ubiquitous monitoring system.

• Advances in concrete construction
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• 제9권3호
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• pp.327-335
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• 2020

Concrete pipes are considered important structures playing integral role in spread of cities besides transportation of gas as well as oil for far distances. Further, concrete structures under seismic load, show behaviors which require to be investigated and improved. Therefore, present research concerns dynamic stress and strain alongside deflection assessment of a concrete pipe carrying water-based nanofluid subjected to seismic loads. This pipe placed in soil is modeled through spring as well as damper. Navier-Stokes equation is utilized in order to gain force created via fluid and, moreover, mixture rule is applied to regard the influences related to nanoparticles. So as to model the structure mathematically, higher order refined shear deformation theory is exercised and with respect to energy method, the motion equations are obtained eventually. The obtained motion equations will be solved with Galerkin and Newmark procedures and consequently, the concrete pipe's dynamic stress, strain as well as deflection can be evaluated. Further, various parameters containing volume percent of nanoparticles, internal fluid, soil foundation, damping and length to diameter proportion of the pipe and their influences upon dynamic stress and strain besides displacement will be analyzed. According to conclusions, increase in volume percent of nanoparticles leads to decrease in dynamic stress, strain as well as displacement of structure.

• Geomechanics and Engineering
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• 제9권4호
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• pp.483-498
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• 2015

This article describes a new in-situ load test called the Hydraulic Cylinder Test (HCT) and its application to determine the geotechnical properties of soil-rock mixtures. The main advantages of the test are its easy implementation, speed of execution and low-cost. This article provides a detailed description of the equipment and the test procedure, and examines a case study of its application to determine the geotechnical properties of an earth-filled dam for a tailings pond. The containment dams of the ponds are made from blocks of gypsum and marl, obtained from the excavation of the ponds, mixed in a matrix of sands and clays. The size of the rocks varies between 1 and 30 cm. The HCT is particularly useful for determining the geotechnical properties of this type of soil-rock mixture. Nine HCTs were carried out to determine its strength (c, ${\phi}$) and deformation (B, G) properties. The results obtained were validated using the Bim strength criterion, recently proposed, and some pressure meter tests carried out beforehand. The properties obtained are used to analyze the stability of the dam using computer simulations and a modification to its design is proposed.

• 터널과지하공간
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• 제13권4호
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• pp.245-259
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• 2003

Refering to the articles "Squeezing rocks in tunnels(Barla, 1995)" and "Tunnelling under squeezing rock conditions(Barla 2002)" this article deals with technologies for design, stability analysis and construction of the tunnel being driven in the squeezing rock mass. The definition of this type of behavior was proposed by ISRM(1994). The identification and quantification of squeezing is given according to both the empirical and semi-empirical methods available to anticipate the potential of squeezing problems in tunnelling. Based on the experiences and lessons learned in recent years, the state of the art in modem construction methods was reported, when dealing with squeezing rock masses by either conventional or mechanical excavation methods. The closed-form solutions available for the analysis of the rock mass response during tunnel excavation are described in terms of the ground characteristic line and with reference to some elasto-plastic models for the given rock mass. Finally numerical methods were used for the simulation of different models and for design analysis of complex excavation and support systems, including three-dimensional conditions in order to quantify the influence of the advancing tunnel face to the deformation behavior of the tunnel.

• 한국농공학회지
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• 제38권1호
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• pp.79-89
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• 1996

It is expected that the soil hehaviours in the seahed subjected to cyclic wave loads are much different from that on the ground Cyclic shear stresses developed below the ocean bed as a result of a passing wave train may progressively build up pore pressure in certain soils. Such build-up pore pressure may be developed dynamic behaviour such as liquefaction and significant deformation of the seabed. Currently available analytical and testing methods for the seabed subjected to cyclic wave loads are not general. The purpose of the study are to provide a test method in laboratory and to analyse the mechanism of wave-induced stresses and liquefactions potentials of the unsaturated silty marine sand. It is showed that the test set-up made especially for this study delivers exactly oscillatory wave pressures of the form of sine function. Laboratory test results defining the cyclic shear strength of the unsaturated porous medium that is homogenously sedimented. It is understood that the pore water pressure due to induced-waves is not accumulated as the wave number increases but reveals periodical change on the still water surface. The magnitude of the pore water pressure tends to be attenuated radically with a certain time lag under the action of both high and low waves as depth increases.