Development cannot be thoughtless for the environment and is to create a convenient and comfortable environment; thus, we should not take only economic factors into consideration as if automobiles cannot be valued more than human beings. People should be considered first because they are the ones who live in developed space; therefore, nature and people should be the main issue when development is planned. This study is to organize these environment and development problems and suggest the fundamental application principle of 'conservation first and development afterward' by discovering problems and measures through the environmental simulation of the Ropeway that was one of major issues in the local community. It is based on the simulation by using the Arc GIS program and Jeju local data from metrical maps (1/2500이 of the national geography service. In addition, the scale modification has been conducted with the consideration of the size of buildings and measured data of the GIS maps. we have discussed the current situation and problems of damage to scenery caused by development of the ropeway construction on Mt. Halla that is World Natural Heritage and essential to scenery factors of Jeju. The cause of the problems was created by development based on the economic logic with its methods with less regards for the local environment. therefore, it is also important to create urban landscape that fits for Jeju as the first stage of success to becoming Juju Free International City. It is very encouraging that the provincial office has recently formed teams for urban design to keep and maintain its scenery and landscape that fit for Jeju. However, there are several problems to be solved before the effort to keep Jeju’s scenery and landscape makes steady headway. First, the problem of the overlap of administrative regulations should be solved. Second, there should be the consistency of the administrative performance. Third, the establishment of a objective standard for the creation of urban scenery based on culture. Fourth. a mature sense of citizenship is needed because there is a limit to administrative efforts to keep the urban scenery and landscape.

본 논문에서는 사장교를 지탱하는 주요 부재인 케이블의 손상 위치를 빠르게 검출할 수 있는 손상평가 기술을 개발하고, 모형 교량 손상 실험을 통하여 개발한 기술의 손상평가 성능을 검증하고자 하였다. 손상평가 기술의 개발을 위하여 통계적 패턴 인식 기술인 마할라노비스 거리 이론을 활용하였으며, 복잡한 구조체의 손상위치 판별을 위하여 계측 위치별 획득 데이터의 변동성을 손상평가 기술에 반영하였다. 개발한 기술의 손상평가 성능을 확인하기 위하여 모형 사장교를 대상으로 손상 실험을 진행하였다. 그 결과, 개발한 손상평가 기술은 무손상 상태의 응답과 손상 상태의 응답을 활용하여 사장교 케이블 의 손상 위치를 검출할 수 있는 통계적 패턴을 제공하는 성능을 보이는 것을 확인하였다.

A damage case of parallel strand cable anchorage was introduced, in which 7 strands were slipped from each wedge at the anchorage of the cable stayed bridge in service. Also, a cable damage detection scheme was proposed on the basis of tension force measurement and model updating method by least square estimation to minimize tension variation. The proposed scheme has been verified from analytical simulations and the actual damage case. The damaged cable leading to tension variation more than noise level of cable force measurement was successfully detected with 7~8 strands damage indication of 2% error in the actual strand slippage case.

Currently, the cable safety management of cable supported bridges is calculated by the ratio of the measured tension to the design tension. The measurement of the tension is performed by indirectly estimating the acceleration measured at the cable surface in terms of the tension. The method of converting the cable vibration response (acceleration) into the tension is disadvantageous in that the damage of the individual strand (or wire) in the cable is not clearly reflected in the tension because the measurement is not reliable and is managed only by the total tension. The purpose of this study is to improve the cable safety management system by evaluating how the damage of individual strand of MS type cable, which is mainly applied to cable-stayed bridges, affects the safety level managed by level of cable tension.

This paper introduces and summarizes damage cases of cable for cable supported bridges. The damage cases of similar bridge types may become an important database in the maintenance and management of cable supported bridges in the future. It will also be used as a base material for improving and developing the technology of inspection and maintenance of cable supported bridges.

This paper introduces and summarizes damage cases of cable for cable supported bridges. The damage cases of similar bridge types may become an important database in the maintenance and management of cable supported bridges in the future. It will also be used as a base material for improving and developing the technology of inspection and maintenance of cable supported bridges.

사장교 케이블의 손상은 사장교 전체의 안전에 가장 큰 영향을 주는 요인이 되므로 케이블의 손상에 대한 유지관리를 필수적으로 해야한다. 이러한 유지관리의 대표적인 방법으로 케이블의 고유진동수변화을 추적하는 방법이 있다. 지금까지 케이블의 고유진동수는 진동법에 의해 횡방향 진동으로 추정하여 왔으며 시스템인식기법은 반복법에 의한 민감도방정식으로 축방향강성을 추정하나 새그의 영향으로 종방향운동에 대한 고유진동수의 분포에 대한 연구가 필요하다. 이 연구에서는 종방향운동에 의한 고유진동수를 이용하여 손상을 추정함으로써, 종방향운동의 신뢰성을 향상시키는 새로운 방법을 제안하였다. 이 방법의 적용결과를 근사해인 유한요소해석결과와 비교하여 유사한 결과를 얻음으로써 제안된 방법의 신뢰성을 검증하였다. 따라서, 케이블손상과 고유진동수와의 관계를 분석한 결과는 손상률이 증가할수록 고유진동수는 낮게 나타났다. 따라서 케이블의 실측 고유진동수를 알 때 케이블손상과 고유진동수와의 관계식을 통해 케이블의 손상정도를 추정할 수 있으므로 케이블의 효율적인 유지관리가 가능하게 된다.

A object of this Experiment is to present a experimental method to verify the detection algorithm of abnormal behavior In order to achieve the desired, a cable stayed bridge model was prepared. The experiments lead to damage of stiffening girders and measuring this by changing the weight.

Causing damage to the actual structure is not easy for new evaluation techniques to validate the damage. Creating a new structure for the validation that is expensive and requires a lot of time. So to verify the techniques using scale model is a common and effective way. For the validation of new techniques, it was to make a scale model of the cable-stayed bridge type and various damages were caused to the bridge model.

In this study, an MFL(Magnetic Flux Leakage)-based NDT(non-destructive test) method was applied to detect the inner damages of steel cable. A steel cable bunch specimen with several types of inner damage was fabricated and scanned by a MFL sensor head to measure the magnetic flux density of the specimen.the measured magnetic flux signal was visualized into a 3D MFL image for convenient cable monitoring. Finally, the results were compared with information on actual inflicted damages to confirm the accuracy and effectiveness of the proposed cable monitoring method.

Since cable members are the major structural components in cable bridges, they should be properly inspected for surface damage as well as inside defects such as corrosion and/or breakage of wires. In this study, only the vision-based surface damage detection system based on image processing techniques is addressed. The damage detection programs are consist of real-time and post processing detection programs. The proposed damage detection programs were verified through laboratory tests on many types of cables.

Since cable members are the major structural components in cable bridges, they should be properly inspected for surface damage as well as inside defects such as corrosion and/or breakage of wires. Starting from August 2010, a new research project supported by Korea Ministry of Land, Transportation Maritime Affairs (MLTM) was initiated to develop the cable inspection robot. In this study, only the vision-based surface damage detection system based on image processing techniques is addressed. The damage detection algorithm combines some image enhancement techniques with principal component analysis (PCA) to detect damages on cable surface. The images from three cameras attached to the cable climbing robot are wirelessly transmitted to the server computer at the cable support. They are processed with image enhancement method together with noise removal technique to improve overall image quality. Then they are projected into PCA sub-space. Finally, the Mahalanobis square distances of the projected images to all sample patterns are calculated. The smallest distance is found to be the match for the input image. The proposed damage detection algorithm was verified through laboratory tests on three types of cables.

사장교가 장경간으로 시공됨에 따라 대형화 되고 지진하중, 풍하중 및 차량하중 등 동적 하중에 의해 유발되는 진동현상에 취약한 단점이 나타난다. 이러한 하중 등에 의해 발생된 구조 손상은 구조물의 진동모드 특성에 영향을 미치게 된다. 기존의 정밀안전진단 기술을 이용하여 사장교의 구조 손상을 검색하고 평가하는 것은 상당한 비용과 시간이 소요될 뿐만 아니라 전체적인 구조거동 특성의 변화를 발견하기 어려울 것이다. 따라서 본 연구는 사장교에 대하여 구조손상 전의 진동모드 특성치와 구조손상 후의 진동모드 특성치를 이용하여 구조거동 특성의 변화를 검토하고 구조손상 검색을 수행하였다.