If you are using high quality LiDAR or survey data you need to be careful about setting up the correct transformation (and still update the metadata on how you transformed!). So it’s important to think about your requirements, and to document in your metadata how you changed the data. Generally, the differences between original NAD83 and the CSRS adjustment are less than a meter, so depending on your data, you may be able to forgo a conversion.” Wise words. The Guru, Melita Kennedy’s quote: “NAD83 CSRS is a re-adjustment of the original NAD83 geographic coordinate system (datum). If using ArcGIS 10.6x, the newer v6 and v7 Geographic systems are available - in older versions you need to create it. As of 2018, CSRS v6 and v7 are becoming very popular - however there is no specific transformations available at this time. Update : Please note that different Geographic systems need specific transformations. However, if you spend some time to find an appropriate projected coordinate system, you'll create a map that presents your data and your message clearly and accurately.Update : Fixed a small, yet important, typo in the ‘Create transformation’ steps. The consequences of ignoring your choice of map projection include distorting your data and misleading your map readers. Do they use a projection that is well suited to their purpose? Are their distance and area measurements accurate? Take a closer look at the maps you see on the internet, in the news, or in apps. Create a custom projected coordinate system in ArcGIS Pro with an extent and projection property.Access the UTM Grid reference layer in ArcGIS Living Atlas of the World.Copy and modify existing projected coordinate systems in ArcGIS Pro.Perform keyword searches and spatial filters in ArcGIS Pro.Review the ArcGIS help documentation for supported map projections.Consult the Quick Notes on Map Projections in ArcGIS chart.In this lesson, you learned some techniques and explored resources that will help you choose an appropriate map projection: Change the central meridian to 160°W or a similar value. Change the central meridian to 29.9.Ĭopy and modify the Equal Earth (world) coordinate system. How could you modify an existing UTM coordinate system to center it on the Russia-Finland border? How could you modify the Equal Earth projection from the start of this lesson to better show the Pacific Ocean?Ĭopy and modify any WGS 1984 UTM Zone coordinate system. Distortion in the Transverse Mercator map is small enough to be unnoticeable, and more precise measurements can be made on that map.Įarlier in this lesson, you learned how to modify coordinate systems. But that scale is meaningless in the Web Mercator map, since its area distortions are so extreme. The two maps shown above are drawn at the same scale: 1 to 20 million. The new projection represents them more accurately. The rectangle in Web Mercator is misleading: on the earth, these lines are not the same length. Its northern edge is shorter than its southern edge. In the custom coordinate system, the shape of the neatline polygon is a trapezoid instead of a rectangle. The image below shows a comparison of the map in the new custom projected coordinate system and in Web Mercator. You want to choose a projected coordinate system in which the places and properties that are most important to your map are the least distorted. Your choice of a projected coordinate system depends on many factors, including the part of the world you are mapping, the scale of your map, and the purpose of your map. There are dozens of projections available in ArcGIS that can be configured into countless projected coordinate systems. They are usually used for maps of the entire world. Three maps, drawn with examples of conformal, equal area, and equidistant projections, overlaid with geodesic circles that demonstrate geometric distortions.Ĭompromise projections provide a representation of the earth that is not perfectly correct in any way but not badly distorted in any way either. Equidistant projections preserve distances, although only from certain points or along certain lines on the map. Equal area projections preserve area, at the expense of angles, so the shapes of some places appear skewed. But the cost of this quality is the distortion of areas and distances. Projection typesĬonformal projections preserve angles locally, so the shapes of features appear true. Each one seeks to preserve some geometric property at the expense of others. All projections distort the earth in some way. You will not find a projection that is suitable for all maps.
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