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신계종 忠州大學校 2004 한국교통대학교 논문집 Vol.39 No.2
The slope gradient of the urban was analyzed by using DEM(DTED level 1). The urban has high percentages of gentle slopes. But low plains and very steep slope regions are scarcely distributed in the Peninsula. Altitude lower than 150m areas are composed of plains and undulated plains. The steepest and most rugged topographies are observed in the range of altitude from 500m to 1,000m areas. As such, GIS would play an important role for faster and reliable urban analysis and location analysis and these functions finally would play important roles to improve administration of local governments.
신계종,황의진 忠州大學校 2005 한국교통대학교 논문집 Vol.40 No.2
The remote sensing field of out country uses a Landsat TM image mainly and it is using in land clothing analysis and the monitor ring of the wide area. It integrated the space analysis technique of the remote sensing technique which uses reasonig being caused by artificial satellite data and the GIS and the analysis against the city change quantity which is a fundamental data it could be used in city planning it execute.
申桂種,李庚基 충주대 산업과학기술연구소 1996 産業科學論文集 Vol.4 No.-
This study is aimed at suggest the direction of human - settlement development and delimitate human settlement for Choong - Ju agropolitan region. The scale of economy, Sequence of function, Homogenity of space and Plan of regional development are considered as elements of delimitation for human settlement. As a results of, Choong-Ju agropolitan region is delimitated human settlement with four hierarchical structures that are composed of one Region, four weekly life boundaries, 7 daily life boundaries, villages. We suggested the direction of functional rearrangement to maximize the characters of region and the potential power of development about individual human settlement.
確率 洪水量 決定에 관한 硏究 : -洛東江, 榮山江 및 蟾津江을 中心으로- -on the Nak Dong, Yong San and Seam Jim River Basin-
申桂鍾 충주대학교 1984 한국교통대학교 논문집 Vol.18 No.1
This study aims to analyze the flood frequencies by the method of Log-Pearson Type Ⅲ . We have chosen 11 water mark places in Nakdong river, Yongsan river and Somjin river where they have comparatively long period of flood records. We made a hydrologic analysis of the data from these 11 water mark places. Applying the statistic values to the regions, we got probability flood of each return frequence in these southern 3 longest rivers with data period of 20 years or so. We think that this may be used effectively in assuming the flood of ungauged places.
신계종,황의진 충주대학교 2006 한국교통대학교 논문집 Vol.41 No.-
The domestic Remote Sensing field uses mainly Landsat TM image that is used to the monitoring of the wide area. In this study, it is analyzed the Road circumstance and urban area by time series using satellite images and is proposed the vision for a urban balanced development. It integrated the space analysis technique of the remote sensing technique which uses reasoning being caused by artificial satellite data and the GIS and the analysis against the city change quantity which is a fundamental data it could be used in city planning it executed.
신계종,황의진 忠州大學校 2011 한국교통대학교 논문집 Vol.46 No.-
The eco-friendly approach to the stream that is the very basic of stream management is run in various ways such as water quality improvement, preparation for flood and ecological restoration to protect ecolife. As well as these trends, continuous stream management businesses such as water management to protect annually repeating flood due to heavy rain caused by sudden weather changes like global warming, El Nino are performed but the damage from flood has been largely increased compared to 70s and 80s. Recently, there are about 4.5times of increased flood damage in 10years compared to 70s and 80s (annual average 1.35trillion dollar) and particularly in 2002, there has been the highest amount of total cost of damage, 6.1 trillion dollar and therefore there is a definite policy for improvement. So flood prediction information about endangered area when setting wide range of natural hazard preparation and water protection plan to achieve stable life of people and reduction of economic loss.
GIS와 원격탐사기술을 통한 충주호 환경변화 분석에 관한 연구
신계종,황의진 忠州大學校 2007 한국교통대학교 논문집 Vol.42 No.-
This study executed a spatial analysis using satellite images and digital topographic maps. we predicted the amount of soil loss on a field slope based on rainfall pattern, soil type, topography, crop system and management practices.
申桂鐘 忠州大學校 1994 한국교통대학교 논문집 Vol.29 No.2
This paper is to study the adsorption of a chloroplast of agar removed toxic & fixed experiments in specific characters. We examined the utility-possibility of the biological adsorption, and investigated the method for treating heavy metal wastewater econmically and efficiently.
우리나라 中部地域의 洪水頻度分析에 관한 硏究 : - on the Han, Geum River Basin- -漢江, 錦江을 중심으로-
申桂鍾 忠州大學校 1986 한국교통대학교 논문집 Vol.20 No.1
This study aims at determination of probability floods for the certral area of Korea. The analysis is based on the existing flood records, 1952 to 1982 at 10hydrologic stations excluding the data which affected the artificial control of discharge after dam construction. Here, We inputed the date for floods in each station to the computer program made with Log-normal, Gumbel Chow, Takase, Iwai method and determined the probability floods in each return period and compared with each frequency curve for each station. The results from this study might be useful tools to determine the floods for hydrologic structures at the place wherer no data are available.
申桂鍾 忠州大學校 1988 한국교통대학교 논문집 Vol.22 No.-
The study analized rainfall date of maximum arbitary rainfall duration in Chung-Ju area by used of the probability theory for hydrological statistics. The rainfall intensity formula has been derived for short-duration(10-120min) with return period. All data used in this study are analized by the self-recording raingage which the Chung-Ju meteorological station preserved. As the result of analysis, the rainfall intensity formula of Chung-Ju is shearman ( I = ?? ) and Knauff Type ( I = ?? + c) This formula may be advantageously applicable to the estimation of flood discharge in small drainage areas, especially suitable for estimating design of the storm sewage.