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Vector data is composed of paths and vertices. However, vector and raster data are the two main types of geospatial data in GIS. The data managed through GIS can come in many common forms including photos, videos, and spreadsheets. It’s as simple as turning a layer on or off to change the visual representation. You can examine each layer independently or view layers concurrently to gain insights into the relationships between them. GIS makes displaying these data layers a breeze. All of the data at a specific location may be relevant but it would be difficult or even impossible to capture simultaneously in an understandable way. GIS works by putting data into useful layers to make it more manageable and useful.Īt any given point on Earth, there are things directly on the surface, below the surface, and above the surface. One application of this function could be forecasting traffic, for example. The ability of GIS to highlight changes that have occurred over time works to forecast changes that will occur in the future. When looking to the future, GIS also helps with predictive analysis and allows users to conduct forecasting. Those in urban planning or construction may find this an especially useful function of GIS. The technology simply layers the submitted data collected at various points for easy comparison. The visual data displayed with GIS is a much more efficient way of tracking change than spreadsheets and numerical calculation.
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Through GIS, you can track the ways that an area or other point of interest changes over time. If detecting changes is your goal, GIS is an ideal tool to use. You will find it even easier to analyze geographically-tied issues using GIS. With well-mapped data, patterns based on geography become much clearer. One of the functions of GIS is identifying problems. Data is only as valuable as the practical, relevant intel it provides and GIS helps ensure you get that intel from your data. That is the ultimate goal of using GIS: extracting useful information from data sets. Users are then able to make smarter, more informed decisions using those insights. This powerful function is particularly valuable since it reveals greater insights into the available data including relationships and patterns. With GIS, you can organize multiple learning layers into easy to understand visualizations as three-dimensional outputs and maps. Simply put, it makes it possible for you to efficiently utilize data tied to a location by using the science of geography. The GIS technology is dynamic and a field that is only growing with time. The data that GIS integrates is geospatial, meaning it relates to a position on the Earth’s surface. Where data and location meet, that’s GIS. What is GIS and how is it used? GIS or geographic information system, is a technology used to capture, manage, and analyze data, specifically geographical data.