최근 한국은 독도 주변에 해양과학연구기지를 건설하려고 하였다. 그러나 독도가 서기 512년부터 국제적으로, 지리적으로 그리고 역사적으로 한국의 고유영토 임에도 불구하고 일본은 독도에 영유권 대한 주장을 여전히 지속하고 있다. 따라서 이러한 배경을 근거로 한국은 이 문제에 관한 일본의 주장에 대하여 반박할 수 있는 법적인 근거를 시급히 마련할 필요가 있다. 이러한 이유로 본고에서는 한국정부의 독도 주변 해양과학연구시설 설치에 대한 일본 정부의 제기 가능한 법적 문제에 어떻게 대응해야 하는가의 문제를 다루게 된다. 이러한 연구결과 본고는 유엔해양법협약, 국가관행 국제판례 등을 기초로 독도 주변 해양과학연구기지 설치에 대한 한국정부의 의사결정에 대한 법적, 이론적 및 논리적 근거를 제시하게 되며, 동시에 한국이 일본과의 향후 독도 주변 해양과학연구기지 설치에 관한 분쟁이나 갈등 유발시 체계적으로 대응하게 하는 근거를 제공한다.

The FBG sensor responses simultaneously to changes in thermal strain as well as elastic strain. Thus the total strain measured from a single FBG sensor shall be corrected to obtain the elastic strain by removing the temperature effect. This paper addresses how the temperature effect can be removed when the FBG sensor is encapsulated in a 7-wire steel strand. For this purpose, fundamental properties of the FBG sensor are identified through tests using a controlled temperature chamber. Then field measurements on a UHPC pi girder with the size of 11.0 m long, 5.0 m wide, and 0.6 m high have been conducted for about one year, and the prestressing force is estimated using the raw data from the FBG sensor and by applying temperature correction technique proposed in this study. Estimated results indicate that the proposed correction technique is executable for extracting the elastic strain from monitoring data using the FBG sensor in civil infrastructures.

Displacement is one of the most fundamental responses, containing useful information regarding dynamic behavior of a structure. Traditional displacement measurement devices such as LVDT have disadvantages in their high cost and few options on installation locations. For the sake of economic reason, vision-based displacement measurement systems using low cost cameras have been developed, yet these systems still have difficulties in finding appropriate camera positions; camera should be placed perpendicular to targets. This study presents a new vision-based displacement measurement system using the planar homography method that results in accurate displacement measurement, allowing the camera to face targets with an arbitrary angles. The proposed vision-based system was experimentally validated from a laboratory test.

In this study, an adaptive shared control system for adjacent tall building structures subjected to seismic loads has been investigated using multi-objective genetic algorithms. A tuned mass damper (TMD) was shared with an adjacent building structure in this study. Variable damping or stiffness devices were used to make a controllable shared TMD. Control objectives of the adjacent tall buildings connected by a adaptive shared TMD can be conflict. This kind of problem can be solved using multi-objective optimization techniques that provide a suite of Pareto-optimal solutions. A possibility of application of multi-objective genetic algorithms to design of a adaptive shared TMD for vibration control of adjacent tall buildings has been investigated.

In this study, AC/DC responses of CNT-filled cement composites are measured and compared. Based on the results, it is found that AC measurement method is more reliable to measure the electrical resistance of CNT-filled cement composites.

Mortar laboratory tests were conducted for analyzing fundamental properties of tunnel shotcrete materials used the furnace blast slag power and the surry-type accelerating admixture. This study tested and compared the shotcrete materials used various accelerating admixtures.

These days structures with ultra high strength concrete and steel are increasing because of the rising demands for high-rise buildings and long span bridges. The techniques of high strength material has been developed rapidly, as they have a lot of benefits such as the reduction of the amount. In this paper, we performed the basic research of practical application examples of the bridge and the structural characteristics of ultra-high-strength concrete and steel strand.

The suspension bridge’s main cable requires regular checks for the decrease on the axial forces of the cable band bolts. In this paper, basic concepts are presented for the approach on the management of cable band bolts in suspension bridges. In additions, the reasons for the decrease of axial forces are investigated with various aspects and some measurement methods for the axial forces are presented as well.

In this study, the deterioration of railway track was determined each element facilities which have consisted in Track, track, roadbed, bridge and tunnel and were evaluated deterioration of railway track it using AHP and DEA methods. In compared to track defect factor that currently used method in conventional track line, was similar with AHP and DEA methods. It is determined that AHP and DEA method for track deterioration can be evaluated quantitatively the condition assessment of the track line.

In this study, the characteristics in the simulation of high-resolution coastal weather, i.e. sea surface wind (SSW) and significant wave height (SWH), were studied in a southeastern coastal region of Korea using the WRF and SWAN models. This analyses was performed based on the effects of various input factors in the WRF and SWAN model during M-Case (moderate days with average 1.8 m SWH and 8.4 ms-1 SSW) and R-Case (rough days with average 3.4 m SWH and 13.0 ms-1 SSW) according to the strength of SSW and SWH. The effects of topography (TP), land cover (LC), and sea surface temperature (SST) for the simulation of SSW with the WRF model were somewhat high on v-component winds along the coastline and the adjacent sea of a more detailed grid simulation (333 m) during R-Case. The LC effect was apparent in all grid simulations during both cases regardless of the strength of SSW, whereas the TP effect had shown a difference (decrease or increase) of wind speed according to the strength of SSW (M-Case or R-Case). In addition, the effects of monthly mean currents (CR) and deepwater design waves (DW) for the simulation of SWH with the SWAN model predicted good agreement with observed SWH during R-Case compared to the M-Case. For example, the effects of CR and DW contributed to the increase of SWH during R-Case regardless of grid resolution, whereas the differences (decrease or increase) of SWH occurred according to each effect (CR or DW) during M-Case.

본 연구는 고 전분 함유 유용 유전자원 선발 및 콩 우량품종 육성의 기초자료로 활용하고자 국내 콩 주요 품종 및 보존 유전자원의 전분함량과 변이 양상을 분석하였으며 그 결과는 다음과 같다. 1.총 2354점 국내 콩 주요 품종 및 보존 유전자원에 대한 요오드-전분 반응에 의한 착색 정도에 따라 1에서 4등급으로 분류를 하였으며, 대부분의 콩 유전자원이 2∼3등급으로 분류되었고, 가장 강한 착색 반응을 보인 4등급으로 126점의 유전자원이 선발되었다2.전분함량의 정량적 분석을 수행한 결과, 1, 2등급으로 분류된 유전자원 Daewang, Soheonje, Jyuiku #109는 각각 0.57, 0.45, 0.54%의 낮은 전분함량을 나타내었다. 반면, 4등급으로 분류된 유전자원은 2.81∼4.55%의 상대적으로 높은 전분함량을 보여 요오드-전분 반응법은 유전자원의 대량검정에 유용하게 이용할 수 있을 것으로 판단되었다.3.각 유전자원에서 전분함량의 차이가 다른 구성 성분의 함량에 영향을 미치는지를 알아보기 위해, 조단백질함량, 조지방함량, 수분함량을 각각 측정하였다. 전분함량의 변화는 조단백질 함량 변화에 영향을 미치며, 조지방과 수분함량의 변화에 영향이 없음을 확인하였다.