Geomatics
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Geomatics is defined in the ISO/TC 211 series of standards as the "discipline concerned with the collection, distribution, storage, analysis, processing, presentation of geographic data or geographic information".[1] Under another definition, it consists of products, services and tools involved in the collection, integration and management of geographic (geospatial) data.[2] Surveying engineering was the widely used name for geomatic(s) engineering in the past. Geomatics was placed by the UNESCO Encyclopedia of Life Support Systems under the branch of technical geography.[3][4]
History and etymology
[edit]The term was proposed in French ("géomatique") at the end of the 1960s by scientist Bernard Dubuisson to reflect at the time recent changes in the jobs of surveyor and photogrammetrist.[5] The term was first employed in a French Ministry of Public Works memorandum dated 1 June 1971 instituting a "standing committee of geomatics" in the government.[6]
The term was popularised in English by French-Canadian surveyor Michel Paradis in his The little Geodesist that could article, in 1981 and in a keynote address at the centennial congress of the Canadian Institute of Surveying (now known as the Canadian Institute of Geomatics) in April 1982. He claimed that at the end of the 20th century the needs for geographical information would reach a scope without precedent in history and that, in order to address these needs, it was necessary to integrate in a new discipline both the traditional disciplines of land surveying and the new tools and techniques of data capture, manipulation, storage and diffusion.[7]
Geomatics includes the tools and techniques used in land surveying, remote sensing, cartography, geographic information systems (GIS), global navigation satellite systems (GPS, GLONASS, Galileo, BeiDou), photogrammetry, geophysics, geography, and related forms of earth mapping. The term was originally used in Canada but has since been adopted by the International Organization for Standardization, the Royal Institution of Chartered Surveyors, and many other international authorities, although some (especially in the United States) have shown a preference for the term geospatial technology,[8] which may be defined as synonym of "geospatial information and communications technology".[9]
Although many definitions of geomatics, such as the above, appear to encompass the entire discipline relating to geographic information – including geodesy, geographic information systems, remote sensing, satellite navigation, and cartography –, the term is almost exclusively restricted to the perspective of surveying and engineering toward geographic information.[citation needed] Geoinformatics and Geographic information science has been proposed as alternative comprehensive term; however, their popularity is, like geomatics, largely dependent on country.[10]
The related field of hydrogeomatics covers the area associated with surveying work carried out on, above or below the surface of the sea or other areas of water. The older term of hydrographics was considered[by whom?] too specific to the preparation of marine charts, and failed to include the broader concept of positioning or measurements in all marine environments. The use of different data processing technologies in hydrography does not change the purpose of its research.[11]
Health geomatics can improve our understanding of the important relationship between location and health, and thus assist us in Public Health tasks like disease prevention, and also in better healthcare service planning.[12]
Mining geomatics is the use of information systems to integrate and process spatial data for monitoring, modelling, visualisation and design of mining operations.[13]
A growing number of university departments which were once titled "surveying", "survey engineering" or "topographic science" have re-titled themselves using the terms "geomatics" or "geomatics engineering", while others have switched to program titles such as "spatial information technology", and similar names.[14][15]
The rapid progress and increased visibility of geomatics since the 1990s has been made possible by advances in computer hardware, computer science, and software engineering, as well as by airborne and space observation remote-sensing technologies.
Geomatics engineering
[edit]Geomatics engineering is a rapidly developing engineering discipline which focuses on spatial information (i.e. information that has a location).[16] 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.[17][18]
Geomatics engineers apply engineering principles to spatial information and implement relational data structures involving measurement sciences, thus using geomatics and acting as spatial information engineers. Geomatics engineers manage local, regional, national and global spatial data infrastructures.[19] Geomatics engineering also involves aspects of Computer Engineering, Software Engineering and Civil Engineering.[20]
Applications
[edit]Application areas include:
- Aeromagnetic surveys
- Airborne geophysics
- Air navigation services
- Archaeological excavation and survey for GIS applications
- Coastal zone management and mapping
- Disaster informatics for disaster risk reduction and response
- The environment
- Infrastructure management
- Land management and reform
- Natural resource monitoring and development
- Seismic Interpretation
- Subdivision planning
- Urban and regional planning
- Oceanography
- Meteorology
- Parks
- Resource Management
- Climate Change/Environmental Monitoring
Areas of knowledge
[edit]Geomatics integrates science and technology from both new and traditional disciplines:
- Geodesy
- Geodynamics
- Global positioning system (GPS) or global navigation satellite system (GNSS)
- Surveying (including land, cadastral, aerial, mining and engineering surveying)
- Hydrography
- Navigation
- Location-based services
- Cartography and digital mapping
- Geographic information systems (GIS), spatial database management and geographic information technology (GeoIT)
- Spatial analysis, spatial data mining and knowledge discovery, and spatial statistics
- Computer-aided design (CAD) and scientific visualization
- Geovisualization, Geovisual Analytics, Visual communication design, graphic design and multimedia technology
- Remote sensing
- Digital Earth
- Image processing
- Photogrammetry
- Computer vision
- Land information systems (LIS)
- Land management, cadastre, real property law
- Applications programming
- Project management
- Land Surveying
- LIDAR
- Digital terrain modelling
See also
[edit]References
[edit]- ^ ISO/TR 19122:2004(en) Geographic information/Geomatics — Qualification and certification of personnel [1]
- ^ "About Us". Applied Geomatics Research Laboratory. Retrieved 2 April 2018.
- ^ Haidu, Ionel (2016). "What is Technical Geography – a letter from the editor". Geographia Technica. 11: 1–5. doi:10.21163/GT_2016.111.01.
- ^ Sala, Maria (2009). Geography Volume I (1 ed.). Oxford, United Kingdom: EOLSS UNESCO. ISBN 978-1-84826-960-6.
- ^ "ACSG - Association canadienne des sciences géomatiques (Section Champlain) /// Des références utiles en géomatique". acsg-champlain.scg.ulaval.ca. Retrieved 2019-11-04.[permanent dead link]
- ^ Arrêté du 27 décembre 1994 relatif à la terminologie de la télédétection aérospatiale, retrieved 2019-11-04
- ^ Paradis, Michel (September 1981). "De l'arpentage à la géomatique". Le Géomètre Canadien (in French). 35 (3): 262.
- ^ Boehm, Richard G.; Mohan, Audrey (2010). "Geospatial Technology: Curricular Keystone of Applied Geography". International Journal of Applied Geospatial Research. 1 (1): 26–39. doi:10.4018/jagr.2010071602. ISSN 1947-9654.
- ^ Scholten, H.J.; Velde, R.; van Manen, N. (2009). Geospatial Technology and the Role of Location in Science. GeoJournal Library. Springer Netherlands. p. 1. ISBN 978-90-481-2620-0. Retrieved 2022-01-28.
- ^ Krawczyk, Artur (2022-11-09). "Proposal of Redefinition of the Terms Geomatics and Geoinformatics on the Basis of Terminological Postulates". ISPRS International Journal of Geo-Information. 11 (11): 557. Bibcode:2022IJGI...11..557K. doi:10.3390/ijgi11110557. ISSN 2220-9964.
- ^ "Invited reply: Hydrography or hydrogeomatics?". Hydro International. 7: 34–37. 1 December 2003. ISSN 1385-4569 – via GITC BV.
- ^ Kamel Boulos, M. N; Roudsari, A. V; Carson, E. R (2001-06-01). "Health Geomatics: An Enabling Suite of Technologies in Health and Healthcare". Journal of Biomedical Informatics. 34 (3): 195–219. doi:10.1006/jbin.2001.1015. ISSN 1532-0464. PMID 11723701.
- ^ Krawczyk, Artur (July 2023). "Mining Geomatics". ISPRS International Journal of Geo-Information. 12 (7): 278. Bibcode:2023IJGI...12..278K. doi:10.3390/ijgi12070278. ISSN 2220-9964.
- ^ "Geomatics engineering & geographic information systems (GIS)". University of Colorado Denver- College of Engineering. University of Colorado Denver. Retrieved October 3, 2021.
- ^ "White Mountains Community College- Spatial Information Technology Transcript Checklist". PDFFiller. Retrieved October 3, 2021.
- ^ Hazelton, N W J (September 2005). "Surveying, Geomatics, and Engineering: A 'Structure' for a Rapidly Evolving Profession". Surveying and Land Information Science. 65 (3): 211–222. ProQuest 202972772.
- ^ "Department of Geomatics Engineering | Kathmandu University". Department of Geomatics Engineering. Retrieved 2023-11-16.
- ^ Lam, Steve Yau-Wah; Yip, Tsz Leung (February 2008). "The role of geomatics engineering in establishing the marine information system for maritime management". Maritime Policy & Management. 35 (1): 53–60. doi:10.1080/03088830701848896. hdl:10397/27671. S2CID 154941027.
- ^ Ghosh, Jayanta Kumar; da Silva, Irineu, eds. (2020). Applications of Geomatics in Civil Engineering. Lecture Notes in Civil Engineering. Vol. 33. doi:10.1007/978-981-13-7067-0. ISBN 978-981-13-7066-3.[page needed]
- ^ "Marshall, Wesley". engineering.ucdenver.edu. Retrieved 2023-11-16.
Further reading
[edit]- Geomatics Canada Ottawa: Natural Resources Canada ISSN 1491-5480
- Dermanis, Athanasios; Grün, Armin; Sansò, Fernando (2000). Geomatic Methods for the Analysis of Data in the Earth Sciences. New York: Springer. ISBN 978-3-540-67476-4.
- Kavanagh, Barry F. (2003). Geomatics. Prentice Hall. ISBN 978-0-130-32289-0.
- Yvan Bédard, "Geomatics" in Karen Kemp (2008), Encyclopedia of Geographic Information Science, Sage. [2]
- Yvan Bédard (2007), "Geomatics": 26 years of history already!, Geomatica, 61(3):269–272. [3]
- Gomarasca, Mario A. (2009). Basics of Geomatics. Springer. ISBN 978-1-402-09014-1.
- "Geomatics", Chap. 1 in Mario A. Gomarasca (2009) Basics of Geomatics, Springer.[4]
- "Geomatics", sec. 1.3 in Mathias Lemmens (2011), Geo-information: Technologies, Applications and the Environment, Springer. [5]
- Ogaja, Clement (2016). Geomatics Engineering: A Practical Guide to Project Design. CRC Press. ISBN 978-1-439-89511-5.
External links
[edit]- International Master's Program Geomatics at Karlsruhe University of Applied Sciences
- Namibia's Geomatics Program Archived 2021-11-23 at the Wayback Machine
- Bachelor of Science in Geomatics Archived 2016-07-28 at the Wayback Machine at Nicholls State University
- Geomatics program at the University of Florida
- Canada's Northwest Territories Centre for Geomatics Archived 2020-01-28 at the Wayback Machine
- UK's Environment Agency Geomatics Group
- GIM International Lemmer, the Netherlands: Geodetical Information & Trading Centre ISSN 1566-9076
- (in French) Géomètres sans Frontières : Association de géometres pour aide au développement.
- School of Rural and Surveying Engineering at National Technical University of Athens (MEng)