Vector data provides multiple advantages. Moreover, vector data display latitude and longitude using lines, points, polygons, etc. Administrative borders, linear features, roads, and rivers are some examples of vector data. Each vertex contains x coordinate and a y coordinate. Vector data uses sequential points or vertices to represent data. Moreover, if there is no special hardware or algorithms, the projection transformations can be time-consuming. It can also be difficult to establish network linkages. On the other hand, raster data can cause information loss. They are easier to simulate as all the cells are of the same size and same shape. Chemical concentrations and elevation surface are some examples of raster data. Each cell has a value that represents information. In other words, it is a matrix of cells organized into rows and columns. – Comparison of Key Differences Key Terms Difference Between Raster and Vector Data In brief, raster data is continuous data whereas vector data is discrete data. It is possible to maintain spatial data as vector data or raster data. One data type or data structure available in GIS is spatial data. Users can visualize, and understand the relationships between geo data in forms of reports, charts, maps etc. Geographic Information System (GIS) is a computer-based tool or technology to manage, analyze and display geographically referenced information. The main difference between raster and vector data is that the raster data represents data as a cell or a grid matrix while vector data represents data using sequential points or vertices.
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