ĭuring the 2000s, the need for specialized spatial files was reduced somewhat by the emergence of spatial databases, which incorporated spatial data into general-purpose relational databases. One result of this was the emergence of free and open-source software libraries, such as the Geospatial Data Abstraction Library (GDAL), which have greatly facilitated the integration of spatial data in any format into a variety of software. When proprietary formats were not shared (for example, the ESRI ARC/INFO coverage), software developers frequently reverse-engineered them to enable import and export in other software, further facilitating data exchange. The most notable example of this was the publication of the Esri Shapefile format, which by the late 1990s had become the most popular de facto standard for data sharing by the entire geospatial industry. Īnother development in the 1990s was the public release of proprietary file formats by GIS software vendors, enabling them to be used by other software. Although this particular format failed to garner widespread support, it led to other standardization efforts, especially the Open Geospatial Consortium (OGC), which has developed or adopted several vendor-neutral standards, some of which have been adopted by the International Standards Organization (ISO). Spatial Data Transfer Standard, released in 1994 and designed to encode the wide variety of federal government data. An early attempt at standardization was the U.S. Since each GIS installation was effectively isolated from all others, interchange between them was not a major consideration.īy the early 1990s, the proliferation of GIS worldwide, and an increasing need for sharing data, soon accelerated by the emergence of the World Wide Web and spatial data infrastructures, led to the need for interoperable data and standard formats. Fish & Wildlife Service and Bureau of Land Management), and new GIS software companies such as Esri and Intergraph, each program was built around its own proprietary (and often secret) file format. When general-purpose GIS software was developed in the 1970s and early 1980s, including programs from academic labs such as the Harvard Laboratory for Computer Graphics and Spatial Analysis, government agencies (e.g., the Map Overlay and Statistical System (MOSS) developed by the U.S. As more of these appeared, they could be compared to find best practices and common structures. The first GIS installations of the 1960s, such as the Canada Geographic Information System were based on bespoke software and stored data in bespoke file structures designed for the needs of the particular project. They have been created by government mapping agencies (such as the USGS or National Geospatial-Intelligence Agency), GIS software vendors, standards bodies such as the Open Geospatial Consortium, informal user communities, and even individual developers. Since the 1970s, dozens of formats have been created based on various data models for various purposes. A GIS file format is a standard for encoding geographical information into a computer file, as a specialized type of file format for use in geographic information systems (GIS) and other geospatial applications.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |