Proceedings of the KSRS Conference (대한원격탐사학회:학술대회논문집)
- 2002.10a
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- Pages.151-156
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- 2002
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- 1226-9743(pISSN)
A VIDEO GEOGRAPHIC INFORMATION SYSTEM FOR SUPPORTING BI-DIRECTIONAL SEARCH FOR VIDEO DATA AND GEOGRAPHIC INFORMATION
- Yoo, Jea-Jun (GIS Research Team, Spatial & Image Information Technology Center ETRI - Computer & Software Technology Laboratory) ;
- Joo, In-Hak (GIS Research Team, Spatial & Image Information Technology Center ETRI - Computer & Software Technology Laboratory) ;
- Park, Jong-Huyn (GIS Research Team, Spatial & Image Information Technology Center ETRI - Computer & Software Technology Laboratory) ;
- Lee, Jong-Hun (GIS Research Team, Spatial & Image Information Technology Center ETRI - Computer & Software Technology Laboratory)
- Published : 2002.10.01
Abstract
Recently, as the geographic information system (GIS) which searches, manages geographic information is used more widely, there is more requests for some systems which can search and display more actual and realistic information. As a response to these requests, the video geographic information system which connects video data obtained by using cameras and geographic information as it is by displaying the obtained video data is being more popular. However, because most existing video geographic information systems consider video data as an attribute of geographic information or use simple one-way links from geographic information to video data to connect video data with geographic information, they support only displaying video data through searching geographic information. In this paper, we design and implement a video geographic information system which connects video data with geographic information and supports hi-directional search; searching geographic information through searching video data and searching video data through searching geographic information. To do this, we 1) propose an ER data model to represent connection information related to video data, geographic information, 2) propose a process to extract and to construct connection information from video data and geographic information, 3) show a component based system architecture to organize the video geographic information system.