• 한국지반공학회:학술대회논문집
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• 한국지반공학회 2009년도 춘계 학술발표회
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• pp.620-625
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• 2009

The seismic slope stability is most often evaluated by the pseudo-static limit analysis, in which the earthquake loading is simplified as static inertial loads acting in horizontal and/or vertical directions. The transient loading is represented by constant acceleration via the pseudostatic coefficients. The result of a pseudostatic analysis is governed by the selection of the value of the pseudostatic coefficient. However, selection of the value is very difficult and often done in an ad hoc manner without a sound physical reasoning. In addition, the maximum acceleration is commonly estimated from the design guideline, which cannot accurately estimate the dynamic response of a slope. There is a need to perform a 2D dynamic analysis to properly define the dynamic response characteristics. This paper develops the modified one-dimensional seismic site response analysis. The modified site response analysis adjusts the density of the layers to simulate the change in mass and weight of the layers of the slope with depth. Multiple analyses are performed at various locations within the slope to estimate the change in seismic response of the slope. The calculated peak acceleration profiles with depth from the developed procedure are compared to those by the two-dimensional analyses. Comparisons show that the two methods result in remarkable match.

• Earthquakes and Structures
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• 제3권3_4호
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• pp.549-561
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• 2012

Many building foundations are embedded, however it is not easy to compact the backfill around the foundation especially for the deeply embedded ones. The soil condition around the embedded foundation may affect the seismic response of a building due to the weak contact between the soil and the foundation. In this paper, the response accelerations in the short-period range and at the period of 1 second (in the long-period range) for a seismic design spectrum specified in the IBC design code were compared considering perfect and poor backfills to investigate the effect of backfill compaction around the embedded foundation. An in-house finite-element software (P3DASS) which has the capability of horizontal pseudo-3D seismic analysis with linear soil layers was used to perform the seismic analyses of the structure-soil system with an embedded foundation. Seismic analyses were carried out with 7 bedrock earthquake records provided by the Pacific Earthquake Engineering Research Center (PEER), scaling the peak ground accelerations to 0.1 g. The results indicate that the poor backfill is not detrimental to the seismic response of a building, if the foundation is not embedded deeply in the soft soil. However, it is necessary to perform the seismic analysis for the structure-soil system embedded deeply in the soft soil to check the seismic resonance due to the soft soil layer beneath the foundation, and to compact the backfill as well as possible.

• 한국터널지하공간학회 논문집
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• 제20권4호
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• pp.671-686
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• 2018

최근 경주, 포항 인근에서 지진이 발생하여 대도시의 초고층 빌딩과 그에 인접한 지하구조물의 내진해석에 대한 사회적 요구가 증가하고 있다. 그러나 기존에 수행되어 왔던 대부분 내진해석 연구는 초고층 빌딩과 지하구조물을 개별적으로 분석하여 구조물간 동적 상호거동 연구가 부족한 실정이다. 따라서 본 연구에서는 기반암과 표층으로 이루어진 지반에 건물과 인접 지하구조물이 설치된 복합지하시설물을 대상으로 지반과 구조물을 동시에 고려한 동적해석을 수행하였다. 특히 신뢰도를 높이기 위해 유사정적해석을 추가로 수행하여 동적해석 결과와 비교 분석하였다. 종합적으로 복합시설물에 대한 SSI 해석 시 인접 지하구조물을 고려하는 것이 보다 보수적인 방법이라고 결론 내렸다.

• 한국지반공학회논문집
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• 제26권6호
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• pp.71-85
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• 2010

터널의 동적 지진해석은 실무에서 널리 수행되고 있다. 동적해석은 하부 및 측면 경계 조건, Deconvolution, 구성모형, 동적 물성치 등을 적용 또는 결정하기 어려워서 해석 수행 시 주의해야 하지만 이에 대한 명확한 가이드라인이 제시된 바 없다. 또한 많은 경우에는 터널의 동적해석 자체가 필요없지만 이에 대한 필요성과 정적해석과의 차이에 대한 이해 없이 무분별하게 사용되고 있는 실정이다. 본 논문에서는 일차적으로 2차원 동적 해석을 올바르게 수행하기 위한 가이드라인을 제시하였다. 이차적으로는 제시된 가이드라인을 준수한 2차원 동적해석을 수행하였으며 해석결과를 응답변위법을 비교하였다. 응답변위법과 동적해석을 비교한 결과, 두 해석기법간의 차이는 크지 않은 것으로 나타났다. 즉, 터널 갱구부, 초연약지반, 또는 공간적 변이성을 고려해야 하는 경우를 제외하고는 터널의 횡방향 지진해석은 응답변위법으로도 충분히 정확하게 터널의 응답을 예측할 수 있을 것으로 판단된다.

• 한국지구과학회지
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• 제32권6호
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• pp.665-673
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• 2011

저류층 내에 부존되어 있는 탄화수소의 매장량을 계산하기 위해서는 그 저류층의 공극률이 필요하다. 일반적으로 시추공 이외의 지역에 대한 공극률은 시추공에서 얻은 공극률 검층자료로부터 외삽하여 얻지만, 시추공을 포함한 지역에서 획득한 탄성파탐사 자료가 존재하는 경우 시추공 자료와 함께 탄성파 탐사 자료를 이용하여 시추공 이외의 지역에서 보다 정확한 유사 공극률을 추출해낼 수 있다. 이 연구에서는 다항식 신경망 기법을 이용하여 탄성파 탐사 자료와 공극률 검층 자료로부터 유사 공극률 검층 자료를 생성하는 모듈을 개발하였다. 먼저 탄성파 탐사 자료로부터 추출된 지하매질의 특성을 나타내는 탄성파 속성(seismic attribute)과 심도에 따른 시간의 자료로 변환된 공극률 검층 자료로부터 다항식 신경망 기법을 사용하여 상관계수를 추출하였고 이 계수를 이용하여 시추공이 없는 지역에서의 공극률 정보를 생성하였다. 한편, 개발된 모듈에서는 보다 정확한 공극률을 획득하기 위하여 각각의 탄성파 속성들과 공극률 검층 자료와의 상관성 분석을 통해 상관성이 높은 탄성파 속성들을 사용하였다. 개발된 다항식 신경망 모듈의 신뢰성, 활용성을 검증하기 위하여 개발된 모듈을 북해 F3 지역의 현장자료에 적용하고, 얻어진 결과를 상용 프로그램에서 사용되는 확률론적 신경망 기법을 통해 얻어진 결과와 비교하였다. 두 방법으로부터 얻은 결과들은 유사한 결과를 보였으며 이를 통해 개발된 모듈의 신뢰성을 입증할 수 있었다. 또한, 다항식 신경망 기법으로부터 얻어진 유사 공극률 검층 자료가 확률론적 신경망 기법을 통해 얻어진 결과보다 실제 값에 더 가깝다는 것을 보여주었다. 따라서 북해 F3 지역과 같이 시추공 자료가 부족한 지역에서는 다항식 신경망 기법이 효과적임을 알 수 있었다.

• Earthquakes and Structures
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• 제8권5호
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• pp.1091-1111
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• 2015

Base isolation is an effective method for protecting structures against earthquake hazard. It elongates the period of vibration and introduces supplemental damping to the structural system. The stiffness, damping and displacement are coupled forcing the code seismic design procedure to be unnecessarily complicated. In addition, the force reduction factor -a key parameter in the design procedurehas not been well addressed by seismic design codes at the high levels of damping due to the pronounced difference between pseudo and actual accelerations. In this study, a comparison has been conducted to evaluate eight different methods, in the literature, for calculating the force reduction factor due to damping. Accordingly, a simplified seismic analysis procedure has been proposed based on the well documented N2 method. Comprehensive analysis has been performed for base-isolated structure models for direct application and verification of the proposed procedure. The results have been compared with those of the European code EC8, the nonlinear time history analysis and investigations in the literature, where good agreement has been reported. In addition, a discussion has been elaborated for the resulted response of the base-isolated structure models with respect to the dynamic characteristics of the base isolation system.

• Structural Engineering and Mechanics
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• 제20권6호
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• pp.655-672
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• 2005

Seismic random responses due to the wave passage effect are extensively investigated by using the pseudo excitation method (PEM). Two examples are used. The first is very simple but also very informative, while the second is a realistic suspension bridge. Numerical results show that the seismic responses vary significantly with wave speed, especially for low velocity or large span. Such variations are not monotonic, especially for flexible structures. The contributions of the dynamic and quasi-static components depend heavily on the seismic wave velocity and the natural frequencies of structures. For the lower natural frequency cases, the dynamic component has significant effects on the dynamic responses of the structure, whereas the quasi-static component dominates for higher natural frequencies unless the wave speed is also high. It is concluded that if insufficient data on local seismic wave velocity is available, it is advisable to select several possible velocity values in the seismic analysis and to choose the most conservative of the results thus obtained as the basis for design.

• 농업과학연구
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• 제47권4호
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• pp.963-978
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• 2020

Earthquakes can induce a large number of landslides and cause very serious property damage and human casualties. There are two issues in study on earthquake-induced landslides: (1) slope stability analysis under seismic loading and (2) debris flow run-out analysis. This study aims to review technical studies related to the development and application of earthquake-induced landslide models (seismic slope stability analysis). Moreover, a pilot application of a physics-based slope stability model to Mt. Umyeon, in Seoul, with several earthquake scenarios was conducted to test regional scale seismic landslide mapping. The earthquake-induced landslide simulation model can be categorized into 1) Pseudo-static model, 2) Newmark's dynamic displacement model and 3) stress-strain model. The Pseudo-static model is preferred for producing seismic landslide hazard maps because it is impossible to verify the dynamic model-based simulation results due to lack of earthquake-induced landslide inventory in Korea. Earthquake scenario-based simulation results show that given dry conditions, unstable slopes begin to occur in parts of upper areas due to the 50-year earthquake magnitude; most of the study area becomes unstable when the earthquake frequency is 200 years. On the other hand, when the soil is in a wet state due to heavy rainfall, many areas are unstable even if no earthquake occurs, and when rainfall and 50-year earthquakes occur simultaneously, most areas appear unstable, as in simulation results based on 100-year earthquakes in dry condition.

• 한국지진공학회:학술대회논문집
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• 한국지진공학회 2003년도 추계 학술발표회논문집
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• pp.263-270
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• 2003

Before the implementation of the 1992 seismic design provisions in Korea, longitudinal steels of RC bridge piers were practically lap-spliced in the plastic hinge region. Experimental investigation was made to evaluate the seismic performance of RC bridge pier specimens in a flexure/shear mode. Six circular test specimens in an aspect ratio of 2.5 (600mm in diameter) were made with test parameters confinement ratio, lap splices, and retrofit FRP materials. They were damaged under a series of artificial earthquakes with 0.22g PGA, being compatible in Korean peninsula, through the pseudo-dynamic test. Probable damages were assessed by the Park and Ang damage index. Approximate 0.1 and 0.3 damage indices were obtained for RC specimens without lap splice and with lap splice, respectively. Directly after the pseudo-dynamic test, damaged test columns were laterally actuated under inelastic reversal cyclic loadings simultaneously under a constant axial load. Through curvature measurements, residual seismic performance was evaluated for test specimens. Test results show that RC pier specimens with lap-spliced appeared to fail at low ductility, but significant improvement was obtained for the ductility of these specimens if externally wrapped with FRP.

• Structural Engineering and Mechanics
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• 제21권6호
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• pp.621-634
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• 2005

A direct transfer substructure method is presented in this paper for analyzing the dynamic characteristics and the seismic random responses of a series reactor. This method combines the concept of FRF (frequency response function) and the transfer matrix algorithm with the substructure approach. The inner degrees of freedom of each substructure are eliminated in the process of reconstruction and the computation cost is reduced greatly. With the convenient solution procedure, the dynamic characteristics analysis of the structure is valid and efficient. Associated with the pseudo excitation algorithm, the direct transfer substructure method is applied to investigating the seismic random responses of the series reactor. The numerical results demonstrate that the presented method is efficient and practicable in engineering. Finally, a precise time integration method is employed in performing a time-history analysis on the series reactor under El Centro and Taft earthquake waves.