http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
노희방 서울대학교 지리교육과 1980 지리학과 지리교육 Vol.10 No.1
Yoˇzidosoˇ, a collection of country geographical descriptions, edited during the period of King Yoˇng-jo (1725-1777), Yi Dynasty, contains a little over 300 provincial and county (Eup) maps of Korea. The purpose of this study is to examine the characteristics and variations of old county maps that appeared in Yoˇzidosoˇ. The results of this study are: 1) Scales of the old maps are not constant but approximately 1/50,000 scale in general. 2) Orientation of the old maps varies from map to map. Maps of north side up comprise 72.5%, west side up 10.4%, east side up 7.9%, south side up 7.1%, and some of uncertain directions. In the areas facing toward a river or coast, those physical features are usually oriented on the bottom of the maps. 3) Physical and cultural features such as mountains and buildings in the county maps are oriented variously. About 50% of maps show the features in an up-right position on the maps, a little less than half (47.5%) of the maps show the features oriented towards the center of the maps where the county seats are placed. A small portion (2.0%) of the maps show those features oriented towards a river. 4) The old maps show physical features such as mountains, rivers and seas, cultural features such as office buildings, store-houses, pavilions, temples, altars, administrative boundaries, fire signal stations, postal cosach stations, military camps, reserviors, bridges, roads, and royal tombs. 5) Old county maps rely more on pictorical representation than on usual map symbols. Mountains are colored in green or blue, rivers and seas in blue, administrative districts in white, yellow, red and blue, roads in red or yellow in general.
노희방 서울대학교 지리교육과 1992 地理敎育論集 Vol.27 No.1
Advances in computer technology during the last three decades have brought about rapid changes in scientific research. Cartographers, in the past, who used technical pens and scribers for map making have adapted computer technology so that maps today can be produced by computers. Map production conducted in classrooms of universities in Korea depends largely on manual work, using pens and adhesive patterns. The traditional method of map production at universities in Korea will be replaced by automated mapping in the near future. The purpose of this paper is to introduce current technology in map making to college cartography courses in Korea. The basic equipment used for mapping is an IBM PC compatible computer, a digitizer, and three different types of printers (dot matrix, ink jet, and laser jet). These printers are used to compare the resolution of maps with the same specifications. As a sample, a choropleth map of the percentage of population under age 5 in Seoul, Incheon, and Kyounggi Province by Shi and Gun in 1985 has been produced. Several activities are involved in making a choropleth map. These are data collection, data input, data analysis, preparation of a base map, and specification of the base data for the map such as patterns, titles, legend, and lettering. Several software packages were utilized to accomplish each activity effectively. Lotus 123 was used to input statistical data and Atlas Draw was used to input geographical, as well as, attribute data such as administrative boundaries and areal names. These databases were manipulated in Atlas Graphics to set class intervals, patterns, and legend. Choropleth maps produced by Atlas Graphics are useful for geographical analysis, but they are quite poor for publication. The available patterns in Atlas Graphics are mostly lines, which are perceptually unstable compared to dot patterns. In addition, lines can not be discriminated, which means that all the lines of boundaries, legend boxes, and patterns are solid ones with same thickness. These drawbacks in Atlas Graphics can be improved with Core1DRAW, which has been developed for graphic design purposes. In Core1DRAW, there are many pattern, line type and width, and lettering options. If these elements are utilized effectively, the quality of maps produced by CorelDRAW is good enough to be published in journals and thesis. Not only the capability of software, but also output devices affect the quality of maps. Although the specification of maps is the same, the resolution of the maps is different depending on types of printers used.