![]() The main point of difference between the digital photograph and the GIS representation is that in the GIS there is accompanying data detailing where the cells can be found on a globe and how big these cells can be. Here each cell, which in this instance is referred to as a pixel, corresponds to a particular colour value. When transferred into a GIS setting, the cells in a raster grid can potentially represent other data values, such as temperature, rainfall or elevation. In an alternate sense, we can consider a digital photograph as an example of a raster dataset. ![]() Raster data provides a representation of the world as a surface divided up into a regular grid array, or cells, where each of these cells has an associated value. Ubiquitous online mapping portals, such as Google Maps and Open Street Maps, present data in this format. Vector data is extremely useful for storing and representing data that has discrete boundaries, such as borders or building footprints, streets and other transport links, and location points. These points can be joined, in a particular order, to form lines or joined into closed areas to form polygons. At its simplest level, vector data comprises of individual points stored as coordinate pairs that indicate a physical location in the world. Data in this format consists of points, lines or polygons. Vector data is what most people think of when they consider spatial data. Both of these methods present data in their own format, with their own advantages and disadvantages. When we come to depict any spatial data in GIS, from physical assets and locations to real-world events and trends, there are two differing systems to display data Raster and Vector representations.
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