• 터널과지하공간
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• 제11권2호
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• pp.120-121
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• 2001

연구의 목적은 콘크리트 결함 발견을 위하여 탄성파를 사용하여 구조물의 속도전파 단면도를 영상화시키고 그 결과를 분석하고자 하였다. 탄성파의 전파 양상을 유한요소법을 이용하여 이론모형에서 계산하고, 그 이론을 실험실의 구조물 모형에 적용하여 토모그램을 작성하였다. 또한 초동 주시를 5개 단계로 선택하여 역산을 행하였으며 계산된 탄성파 속도전파 단면도를 비교하여 가장 편리하고 정확한 초동주시 발췌법을 제시하였으며, 이러한 초동주시에 의해서 모형실험을 행하였다.

• Earthquakes and Structures
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• 제4권4호
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• pp.341-363
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• 2013

Earthquake response calculation, parametric analysis and seismic parameter optimization of base-isolated structures are some critical issues for seismic design of base-isolated structures. To calculate the earthquake responses for such non-symmetric and non-classical damping linear systems and to implement the earthquake resistant design codes, a modified complex mode superposition design response spectrum method is put forward. Furthermore, to do parameter optimization for base-isolation structures, a graphical approach is proposed by analyzing the relationship between the base shear ratio of a seismic base-isolation floor to non-seismic base-isolation one and frequency ratio-damping ratio, as well as the relationship between the seismic base-isolation floor displacement and frequency ratio-damping ratio. In addition, the influences of mode number and site classification on the seismic base-isolation structure and corresponding optimum parameters are investigated. It is demonstrated that the modified complex mode superposition design response spectrum method is more precise and more convenient to engineering applications for utilizing the damping reduction factors and the design response spectrum, and the proposed graphical approach for parameter optimization of seismic base-isolation structures is compendious and feasible.

• 한국구조물진단유지관리공학회 논문집
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• 제6권2호
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• pp.121-126
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• 2002

Due to few earthquakes in our country, one generally has thought to be safe from earthquakes. However, severe earthquakes occurred in Dangsan and Hyogohyeon which one had regarded as the zone that had not been risky for earthquakes, so that so many people died and a lot of buildings and bridges were destroyed. This event surprised our country and we undertook preparation for earthquakes on the full scale. The concept of seismic design was induced in the country which was poor in it for the scarcity of recognition and insufficiency of funds. Recently, many specialists are enforcing the provisions of seismic design. Therefore, this study introduces the method which combines PC-LEADeR( design program for L.R.B.) with LUSAS(linear elastic analysis) and performs the seismic isolation design more elaborately and simply. It verifies the propriety of that method, and it also examine the factors that affect the response of the bridges. Seismic isolation design for bridge using L.R.B. provides both economical efficiency and superior seismic performance. Second, the results between by the method proposed and by time history analysis have 20% error at the maximum. That is, the method proposed very appropriate.

• Computers and Concrete
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• 제32권3호
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• pp.313-326
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• 2023

The seismic safety of the shear wall structure can be assessed through seismic fragility analysis, which requires high computational costs in estimating seismic demands. Accordingly, machine learning methods have been applied to such fragility analyses in recent years to reduce the numerical analysis cost, but it still remains a challenging task. Therefore, this study uses the ensemble machine learning method to present an improved framework for developing a more accurate seismic demand model than the existing ones. To this end, a rank-based selection method that enables determining an excellent model among several single machine learning models is presented. In addition, an index that can evaluate the degree of overfitting/underfitting of each model for the selection of an excellent single model is suggested. Furthermore, based on the selected single machine learning model, we propose a method to derive a more accurate ensemble model based on the bagging method. As a result, the seismic demand model for which the proposed framework is applied shows about 3-17% better prediction performance than the existing single machine learning models. Finally, the seismic fragility obtained from the proposed framework shows better accuracy than the existing fragility methods.

• Earthquakes and Structures
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• 제15권6호
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• pp.605-616
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• 2018

In this paper, an extended Cloud analysis method is developed for seismic fragility assessment of existing highway bridges in the southeast Queensland region. This method extends the original Cloud analysis dataset by performing scaled Cloud analyses. The original and scaled Cloud datasets are then paired to generate seismic fragility curves. The seismic hazard in this region is critically reviewed, and the ground motion records are selected for the time-history analysis based on various record selection criteria. A parametric highway bridge model is developed in the OpenSees analysis software, and a sampling technique is employed to quantify the uncertainties of highway bridges ubiquitous in this region. Technical recommendations are also given for the seismic performance evaluation of highway bridges in such low-to-moderate seismic zones. Finally, a probabilistic fragility study is conducted by performing a total of 8000 time-history analyses and representative bridge fragility curves are generated. It is illustrated that the seismic fragility curves generated by the proposed extended Cloud analysis method are in close agreement with those which are obtained by the rigorous incremental dynamic analysis method. Also, it reveals that more than 50% of highway bridges existing in southeast Queensland will be damaged subject to a peak ground acceleration of 0.14 g.

• 한국지진공학회논문집
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• 제25권1호
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• pp.11-20
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• 2021

The seismic deformation method is conventionally used as a seismic design for a multi-utility tunnel in Korea. In the seismic deformation method, the soil ground's natural period is one of the most critical factors for calculating the ground displacement using cosine functions. Correction factors for the natural period and shear wave velocity have been used to consider the non-linearity of dynamic soil properties. However, the correction factors have been issued because the correction factors have not been sufficiently studied to consider Korea's regional conditions. This paper aims to evaluate the natural periods for the seismic deformation method considering Korea's ground conditions. Ground response analysis was performed using seven real earthquake records on twelve sites with different soil conditions where actual multi-utility tunnels are installed. As a result, natural periods of the sites were analyzed and new correction factors were proposed according to seismic performance and Korea's regional conditions.

• 국제강구조저널
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• 제18권5호
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• pp.1508-1524
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• 2018

Hysteretic energy dissipating devices (HEDDs) have been increasingly applied to building construction to improve the seismic performance. The seismic responses of such damped structures are significantly affected by HEDD's structural properties. An accurate investigation on the propagation of HEDD's structural properties is required for reasonable evaluation of the seismic performance of a structure. This study aims to develop simplified methods that can estimate the collective uncertainty-propagation to the seismic response of damped structures employing HEDDs. To achieve this, three- and six-story steel moment-resisting frames were selected and the propagations of the individual HEDD's property-uncertainties were evaluated when they are subjected to various levels of seismic demand. Based on the result of individual uncertainty-propagations, a simplified method is proposed to evaluate the variation of seismic response collectively propagated by HEDD's property-uncertainties and is verified by comparing with the exact collective uncertainty-propagation calculated using the Monte Carlo simulation method. The proposed method, called as a modified SRSS method in this study, is established from a conventional square root of the sum of the squares (SRSS) method with the relative contributions of the individual HEDD's property-uncertainty propagations. This study shows that the modified SRSS method provides a better estimation than the conventional SRSS method and can significantly reduce computational time with reasonable accuracy compared with the Monte Carlo simulation method.

• 한국전산구조공학회논문집
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• 제27권4호
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• pp.255-263
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• 2014

본 연구에서 피뢰기의 지진취약도 해석은 역량스펙트럼 방법을 이용하여 수행하였다. 많은 구조부재를 가진 구조물의 지진취약도 해석은 수십 혹은 수백 개의 지진하중에 대한 비탄성 지진응답을 계산하는 것이 요구되기 때문에 역량스펙트럼 방법과 같은 간단한 방법이 응답이력해석 보다 적합하다. 일반적으로 역량스펙트럼 방법에 의해 평가된 지진응답의 정확성은 응답이력해석에 의한 결과의 정확성 보다 떨어진다. 역량스펙트럼 방법의 정확성을 향상시키기 위하여 등가단자유도 방법과 성능점 계산기법이 적용되었다. 지진취약도에 대한 지진에 대한 지반효과를 평가하기 위하여 60개의 다른 지반종류의 지반운동을 입력지진으로 선정하여 사용하였다. 역량스펙트럼 방법과 응답이력해석에 의한 지진취약도 곡선의 비교로부터 역량스펙트럼 방법에 의한 지진취약도 곡선이 응답이력해석에 의한 지진취약도 곡선과 상당히 유사함을 알 수 있었다. 또한, 피뢰기의 주된 지진에 의한 파괴모드는 부싱의 파손임을 알 수 있었다.

• 한국지진공학회논문집
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• 제8권1호
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• pp.39-58
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• 2004

성능에 기초한 내진설계 분야에서 구조물의 내진성능평가를 위해서는 비탄성 지진거동을 보다 정확하게 예즉할 필요가 있다. 성능기초 설계기준에 반영되어 있는 내진성능 평가 방법 가운데 하나인 pushover해석을 이용한 방법은 몇몇 연구자들에 의하여 다양한 해석 방법론이 개발되었다. 이 방법을 사용하여 비탄성 전체 또는 국부적 지진응답을 보다 정확하게 평가하기 위해서는 사용되는 횡하중 분배가 구조시스템과 지반운동의 동적특성에 부합되도록 반영되어야 한다. 그리고 구조물의 변형능력을 합리적으로 평가하여 성능점을 보다 정확하게 산정해야 한다. 본 연구에서는 개선된 적응적 횡하중 분배방법과 건물의 등가응답을 이용하여 비탄성 지진응답을 정확하고 효율적으로 평가할 수 있는 방법을 제안하였다. 제안된 방법은 건물의 전체 비탄성 거동에 대한 내진성능을 평가하고 국부적인 비탄성 지진응답을 정확하게 산정하는데 사용될 수 있다. 또한 제안된 방법의 정확성과 타당성을 검증하기 위해서 비탄성 시간이력해석과 기존의 다른 해석방법들에 의한 비탄성 지진응답과 비교하였다.

• Structural Engineering and Mechanics
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• 제48권2호
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• pp.257-274
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• 2013

In this study, seismic performance of one story hinged precast buildings, which represents the majority of existing lightweight industrial building stock of Turkey, was assessed. A lot of precast buildings, constructed in one of the important seismic zones of western Turkey, were investigated and building inventories were prepared. By this method, structural properties of inventory buildings and damaged precast buildings in recent earthquakes were compared. Damage estimations based on nonlinear analysis methods have shown that estimated damage levels of inventory buildings and observed damage levels in recent earthquakes are similar. Accuracy of damage estimation study and the simplicity of the one story precast building models implied that rapid seismic performance assessment method for these buildings can be developed. In this assessment method, capacity curves and vibration periods of precast buildings were calculated by using structural properties of precast buildings. The proposed assessment method was applied to inventory buildings by using two different seismic demand scenarios which reflect moderate and soft soil conditions. Comparison of detailed analysis and rapid assessment methods have indicated that reliable seismic performance estimations can be performed by using proposed method. It is also observed that distribution of damage estimations is compatible in both scenarios.