우리나라의 도시철도 역사는 44년이나 되지만, 도시철도 역명에 관한 연구는 매우 빈약하다. 선행 연구 검토 결과 도시철도 역명에 관한 기본 특성 연구는 이미 수행된 바 있다. 그래서 본고에서는 우리나라 도시철도 전체 역명(1,033개)에 관한 심층 연구의 일환으로 역명의 부적합성을 분석하였다. 하지만 역명이 워낙 많고 특성이 서로 상이하여, 본고에서는 행정구역 관련 역명 630개에 대해서만 부적합 여부를 판단하였다. 역명 부적합성은 포섭 여부나 거리만으로 판단하는 것은 곤란하므로, 지역 대표성, 행정구역 변천 등 여러 측면을 종합적으로 고려하였다. 그 결과 시·군·구명 관련 역명은 부적합 비율이 8.33%로 매우 낮았고, 읍·면·동명 관련 역명은 39.01%로 매우 높았다. 유사 행정구역명 관련 역명은 45.45%로 매우 높았고, 리·마을명 관련 역명은 9.09%로 매우 낮았으며, ‘옛 지명’ 관련 역명은 19.51%로 상당히 높았다. 도시철도 역명 제정이나 개정 시 이런 문제점을 충분히 고려하여 부적합 역명의 비율을 감소시켜 나가야 할 것이다.
PURPOSES : Traffic situation of Seoul City is different each administrative district. because each administrative district population, average travel speed, etc are different. thus, regionally differentiated policy is necessary. METHODS : In this study, first, it is to implement the cluster analysis using the traffic factor of twenty-five administrative districts in Seoul, categorize it into the cluster and understand the properties. second, related factors of speed were derived. and method to increase the speed was investigated. we choose the eleven traffic factors such as the number of traffic accident cases, total length, speed, the number of cross section, the number of cross section per km, the rate of roads, registered cars, population attending office and school, population density, area. RESULTS : In the results, first, we could categorize the Seoul-City administrative district into three clusters. in order to find Factors associated with speed a simple regression analysis was performed. and the number of intersections per km is closely related to the speed. CONCLUSIONS : Through this study, transportation policies reflecting local traffic-related characteristics are required.
The selection of land for fishing village development project, and the standard used to classify fishing villages has been determined based on the guidelines developed by fishing village cooperatives. The approach fishing village cooperatives follows is likely to classify fishing villages without first reflecting on the overall development environment of the region, such as other industries and workers in the area. It also acts as a barrier for business promotion or evaluation, because the cooperatives do not match the administrative districts, which are the units of administration, and the main policy enforcement agent in regional development. Against this background, this study aimed to identify categories to situate the development direction, as well as the size and distribution of fishing villages based on eup, myeon, and dong administrative units as defined by the Fishing Villages and Fishery Harbors Act. This study was based on the Census of Agriculture, Forestry, and Fisheries of 2010, and analyzed 826 eups, myeon, and dongs with fishery households using the principal component analysis, and 2-Step cluster analysis methods. Therefore, 95% of the variance was explained using the covariance matrix for types of fishing villages, but it was analyzed as one component focusing on the number and ratio of fishery households, and used the cluster-type analysis, which focused on the sizes of fishing villages. The clusters were categorized into three types: (1) the development type based on the number of fishermen in the eups, myeons and dongs was analyzed as village size (682); (2) administrative district size (121); and (3) total eups, myeons and dongs (23), which revealed that the size of most fishing villages was small. We could explain 73% of the variance using the correlation coefficient matrix, which was divided into three types according to the three principal component scores, namely fishery household power, fishery industry power, and fishing village tourism power. Most fishing villages did not have a clear development direction because all business areas within the region were diversified, and 552 regions could be categorized under the harmonious development type, which is in need of balanced development. The fishery industry type typified by industrial strength included 159 regions in need of an approach based on industrialization of fishery product processing. Specialized production areas, which specialized in producing fishery products, were 115 regions with a high percentage of fishermen. The analysis results indicated that various situations in terms of size and development of fishing villages existed. However, because several regions exist in the form of small village units, it was necessary to approach the project in a manner that directed the diversification of regional development projects, such as places for local residents to relax or enjoy tourism experiences within the region, while considering the overall conditions of the relevant eups, myeons, and dongs. Reinforcement of individual support for fishermen based on the Fisheries Act must take precedence over providing support for fishermen through regional development. In addition, it is necessary to approach the development of fishing villages by focusing on industrializing the processing techniques of fishery products. Areas specialized in the production of fishery products are required to consider the facilities for fisheries production, and must make efforts to increase fishery resources, such as releasing fry.
수공구조물의 설계기준인 확률강우량은 정상성(stationary)라는 가정 아래 산정되어 적용되고 있다. 하지만 기후변화의 영향으로 우리나라에서 평균 강수량이 증가하는 모습을 보이고 있으며, 최근 일어난 국지성 호우는 설계빈도를 크게 벗어나면서 도심지역의 침수를 발생시키고 있다. 본 연구에서는 최근에 관측되는 강우량의 경향성을 반영하기 위하여 GEV 모수의 비선형성을 고려한 비정상성 강우빈도해석법을 제안하고 이를 관측강우량을 이용하여 적용성을 검토하였다. 30년 이상의 지점 일강우량을 보유한 관측지점을 이용하여 행정구역별 일강우량을 산정하고 연최대일강우량 자료를 구축한 뒤, Mann-Kendall Test와 Regression Test를 통하여 경향성을 가진 24개 지역을 선정하였다. 경향성을 가지고 있는 지역을 대상으로 이동평균방법을 이용하여 강우량의 평균, 분산, 왜곡도를 산정하였으며, GEV 확률분포함수의 모수를 추정하여 이들의 상관성을 파악하였다. 이를 바탕으로 비선형 회귀모형을 이용하여 GEV 함수의 모수를 추정하였으며, 이를 바탕으로 행정구역의 확률강우량을 산정하였다. 이러한 결과는 최근 도입된 행정구역별 방재성능목표 강우량 산정에 도움이 될 것으로 판단된다.