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Surveying, Mapping and GIS Applications: Difference between revisions

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One of the most obvious uses for GNSS systems is the realization of surveys and production of maps. Although a simple standalone [[:Category:Receivers|GNSS Receiver]] might not have the required precision for some survey requirements, most of these requirements can be fulfilled using high-end dual frequency multi-constellation receivers built specifically for surveying and by using [[GNSS Augmentation]] techniques.   
One of the most obvious uses for GNSS systems is the realization of surveys and production of maps. Although a simple standalone [[:Category:Receivers|GNSS Receiver]] might not have the required precision for some survey requirements, most of these requirements can be fulfilled using high-end dual frequency multi-constellation receivers built specifically for surveying and by using [[GNSS Augmentation]] techniques.   



Revision as of 10:57, 23 February 2012


ApplicationsApplications
Title Surveying, Mapping and GIS Applications
Edited by GMV
Level Basic
Year of Publication 2011

One of the most obvious uses for GNSS systems is the realization of surveys and production of maps. Although a simple standalone GNSS Receiver might not have the required precision for some survey requirements, most of these requirements can be fulfilled using high-end dual frequency multi-constellation receivers built specifically for surveying and by using GNSS Augmentation techniques.

The use of GNSS techniques in geodesy have revolutionized the way geodetic measurements are made. An increasing number of national governments and regional organizations are using GNSS measurements as the basis for their geodetic networks[1].


Land Surveying

Land surveying

Land Surveying is a technique and science of accurately measuring the distances and angles between different points, on the surface of Earth. GNSS has been used by land surveyors since the late 1980s, primarily for geodetic control networks and for photo control[2].

Nowadays, GNSS is used to determine precise locations all over the globe, in any weather conditions and at any time of the day. GNSS geodetic surveying equipment has become smaller and easier to use being faster to use than other surveying methods. GNSS is specially used for large topographic surveys where a centimeter level accuracy is enough[3].

Detailed information about Land Surveying can be found here.

Mapping & GIS

Mapping & GIS

Mapping and GIS applications allow to capture, store, manipulate, analyze, manage, and present all types of geographically referenced data[4]. GIS technology combines database, mapping and statistical methods to integrate georeferenced data into visual displays where the relationships, patterns and trends in the data can be more easily identified[5].

Although Mapping and GIS applications do not rely on GNSS as sole means for data capture, the widespread of the GNSS technologies has allowed for low-cost data acquisition processes that made GIS technologies to be more generally used.

Detailed information about Mapping & GIS can be found here.

Aerial Surveys

Aerial Surveys

Aerial Survey is a form of collection of geographical information using airborne vehicles. The collection of information can be made using different technologies such as aerial photography, radar, laser or from remote sensing imagery using other bands of the electromagnetic spectrum, such as infrared, gamma, or ultraviolet. For the information collected to be useful this information needs to be georeferenced. The georeferencing of information is usually done using GNSS with similar techniques as the techniques used for dynamic land surveying.

Detailed information about Aerial Laser Profiling can be found here.

Notes


References