Vector data consists of individual points, which (for 2D data) are stored as pairs of (x, y) co-ordinates. This means that your GIS can position your raster images (DEM, hillshade, slope map etc.) correctly relative to one another, and this allows you to build up your map. The difference between a digital elevation model (DEM) in GIS and a digital photograph is that the DEM includes additional information describing where the edges of the image are located in the real world, together with how big each cell is on the ground. The key point is that all of this data is represented as a grid of (usually square) cells. In GIS, the pixel values may represent elevation above sea level, or chemical concentrations, or rainfall etc. Simplifying slightly, a digital photograph is an example of a raster dataset where each pixel value corresponds to a particular colour. Raster data is made up of pixels (or cells), and each pixel has an associated value. However, the distinction between vector and raster data types is not unique to GIS: here is an example from the graphic design world which might be clearer. In GIS, vector and raster are two different ways of representing spatial data. Latitudes and Longitudes in Raster data are displayed in the form of closed shapes where each pixel has a particular latitude and longitude associated with it. Latitudes and Longitudes in Vector data are displayed in the form of lines, points, etc. ![]() ![]() The difference is in the way they are displayed. ![]() Raster models are useful for storing data that varies continuously, as in an aerial photograph, a satellite image, a surface of chemical concentrations, or an elevation surface.Īll I have understood from the above is that both vector and raster data constitute of "latitudes and longitudes", only. Raster data model: A representation of the world as a surface divided into a regular grid of cells. Vector models are useful for storing data that has discrete boundaries, such as country borders, land parcels, and streets. Vector data model: A representation of the world using points, lines, and polygons.
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