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| title | chunk | source | category | tags | date_saved | instance |
|---|---|---|---|---|---|---|
| Geomatics | 2/2 | https://en.wikipedia.org/wiki/Geomatics | reference | science, encyclopedia | 2026-05-05T03:26:40.068770+00:00 | kb-cron |
Global navigation satellite systems are a collection of geospatial systems that provide global coverage. The technology has a variety of purposes from communications to mobile navigation. The six GNSS constellations in operation are the U.S. GPS Operational Constellation, GLObal NAvigation Satellite System (GLONASS) stemming from Russia, the European Galileo, China's BeiDou/Compass, Japan's Quasi-Zenith Satellite System (QZSS), and The Indian Regional Navigation Satellite System (IRNSS).
== Geomatics engineering ==
Geomatics engineering is a rapidly developing engineering discipline which focuses on spatial information (i.e. information that has a location). The location is the primary factor used to integrate a very wide range of data for spatial analysis and visualization. Geomatics engineers design, develop, and operate systems for collecting and analyzing spatial information about the land, the oceans, natural resources, and manmade features. Geomatics engineers or geomatician apply engineering principles to spatial information and implement relational data structures involving measurement sciences, thus using geomatics and acting as spatial information engineers. They sit at the nexus of geography and computer science. A geomatician practices geomatics, by combining "geo", (the earth) with information and automation. Geomatics engineers manage local, regional, national and global spatial data infrastructures. Geomatics engineering also involves aspects of Computer Engineering, Software Engineering and Civil Engineering. Geomatic engineers acquire, measure, create, and process data using a geographic information system (GIS) and then model phenomena associated with places. Geomaticians have alternative titles, including Geographic Information System (GIS) technologist, spatial data analyst, city/urban planner and cartographer. Geomaticians are often found working in the public sector, in land registry, urban planning departments where they are involved in surveying and cadastral mapping. They also work in the private sector, in mapping companies, publishing houses or in remote sensing companies.
=== Required skills === Geomaticians handle the entire value chain associated with processing geodata. Their work begins with data collection and acquisition. Geomatics specialists must be able to distinguish between topographic methods (e.g., total station or differential GPS) (which involve going to the point to be measured) and remote sensing methods (e.g., photogrammetry or lidar) (remote measurement). They must also be able to perform planimetric measurements (x, y or latitude, longitude), altimetric surveys (z or H), or satellite telemetry measurements (analysis of measurements taken from space). The collected data is then cleaned and made available for further processing.
=== Education === Geomaticians are responsible for verifying the accuracy (spatial and temporal), completeness, and, if verification is impossible (e.g., inaccessible terrain), the plausibility of geodata. Despite attempts at automation, they are still called to calculate the location and the geographic coordinate system, then at least two coordinates: latitude and longitude, and sometimes altitude of entities (points, lines, areas) and their associated attributes (e.g., their nature, area, volume, population, and whether or not they are connected to a drinking water network). Their geodata then undergoes processing and analysis to create data models and thus databases. If necessary, the data is formatted (selection of scale, colors, line thicknesses, and legend) to create maps. Skilled geomaticians are in short supply, and there are not sufficient professionals in the pipeline who can distinguish between different data exchange formats, convert them, and evaluate, interpret, and merge data from various sources.
=== Spatial statistics === The work of geomatics engineers includes the analysis of spatial data and statistics. This information models "spatially-indexed dependence structures", which combats the idea of an independent and identically distributed set of data. It is also known as geospatial analytics, and is the information pertaining to a specific location in geospace. The analysis done by geomatics engineers in this field provides actionable insight in accordance to what is being examined.
=== Subdivision planning === Working alongside civil engineers, geomatics engineers will utilize the GNSS and high precision instruments to determine legal and geographic boundaries of an area. The raw data is processed through a Geographic Information System (GIS) database, which will then be used as a source by a team. To assess the most optimal layout, the proposed design is run through constraint data such as floodplains, wetlands, and steep slopes. A Subdivision Plat is prepared, which is the legally recorded map illustrating boundaries, dimensions, and associated partitions.
== Impact == Geomatics and the technology associated with it has made several breakthroughs in climate change efforts, population health, and oceanic activities. This application is especially evident in the use of photogrammetry, where images utilized by geomatics can be turned into 3D models. Furthermore, data from geospatial techniques are employed for governmental use to ameliorate the issues on Earth's surface.
=== Sustainability === The ability to interpret geodata is pushing companies in the industry to achieve net-zero emissions. Agreements and plans across the globe promote climate neutrality such as the Sustainable Developmental Goals (SDGs) and the various editions of the United Nations Climate Change conference series. The Earth Archive Initiative, launched by Christopher Fisher, aims to create a digital baseline of Earth and mitigate the climate crisis. LiDAR, a remote sensing technology, will be used to carry out scans of the planet's landmass, which estimates to about 30% of the Earth's surface area. The LiDAR scans would provide a dataset of present data available and the Earth's future state. Doing so will assist in understanding and combating the climate change crisis with a visual representation.
== See also ==
Geographic Information Science Geoinformatics
== References ==
== External links == Media related to Geomatics at Wikimedia Commons