On the global geodetic observing system: Africa's preparedness and challenges
Space geodetic techniques and satellite missions play a crucial role in the determination and monitoring of geo-kinematics, Earth's rotation and gravity fields. These three pillars of geodesy provide the basis for determining the geodetic reference frames with high accuracy, spatial resolution...
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| Published in: | Acta astronautica Vol. 83; pp. 119 - 124 |
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| Main Authors: | , , |
| Format: | Journal Article |
| Language: | English |
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01-02-2013
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| Abstract | Space geodetic techniques and satellite missions play a crucial role in the determination and monitoring of geo-kinematics, Earth's rotation and gravity fields. These three pillars of geodesy provide the basis for determining the geodetic reference frames with high accuracy, spatial resolution and temporal stability. Space geodetic techniques have been used for the assessment of geo-hazards, anthropogenic hazards and in the design of early warning systems for hazard and disasters. In general, space geodesy provides products for Earth observation, science and influences many activities (e.g., building and management) in a modern society. In order to further promote the application of space geodetic methods to solving Earth science problems, the Global Geodetic Observing System (GGOS) of the International Association of Geodesy (IAG) was commissioned as an important geodetic infrastructure that integrates different geodetic techniques (such as Global Navigation Satellite Systems, Very Long Baseline Interferometry, Satellite Laser Ranging, Interferometric Synthetic Aperture Radar and Doppler Orbitography and Radio-positioning Integrated by Satellite), models and analysis techniques for the purpose of ensuring long-term, precise monitoring of geodetic observables vital for monitoring Earth system processes. Since its inception, there has been considerable progress made towards setting up the infrastructure necessary for the establishment of the GGOS database. While the challenges that beleaguer the GGOS are acknowledged (at least at global level), the assessment of an attuned GGOS infrastructure in the African context is necessary, yet lacking. In the present contribution, (a) the African preparedness and response to the observing system is assessed, and (b) the specific scientific and technological challenges of establishing a regional GGOS hub for Africa are reviewed. Currently only South Africa has a fundamental geodetic observatory located at Hartebeesthoek, Pretoria. Other countries in Africa have shown interest to participate in global geodetic activities, in particular through interest in the development of a unified African geodetic reference frame (AFREF). In particular interest has been shown in the proposed African VLBI Network (AVN), which will be partially based on existing ex-telecommunication radio antennas. Several countries are investigating their participation in the AVN, including Kenya, Nigeria and Ghana.
► A geodetic infrastructure called African Geodetic Observing System (AGOS) is proposed. ► Funding limitations, human capacity and lack of building, integrating and maintaining expected challenges. ► The societal and scientific problems that could be addressed by AGOS ought to be understood. ► AGOS system specifications must meet the user requirements. ► AGOS products and services ought to be part of Africa's geospatial information management process. |
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| AbstractList | Space geodetic techniques and satellite missions play a crucial role in the determination and monitoring of geo-kinematics, Earth's rotation and gravity fields. These three pillars of geodesy provide the basis for determining the geodetic reference frames with high accuracy, spatial resolution and temporal stability. Space geodetic techniques have been used for the assessment of geo-hazards, anthropogenic hazards and in the design of early warning systems for hazard and disasters. In general, space geodesy provides products for Earth observation, science and influences many activities (e.g., building and management) in a modern society. In order to further promote the application of space geodetic methods to solving Earth science problems, the Global Geodetic Observing System (GGOS) of the International Association of Geodesy (IAG) was commissioned as an important geodetic infrastructure that integrates different geodetic techniques (such as Global Navigation Satellite Systems, Very Long Baseline Interferometry, Satellite Laser Ranging, Interferometric Synthetic Aperture Radar and Doppler Orbitography and Radio-positioning Integrated by Satellite), models and analysis techniques for the purpose of ensuring long-term, precise monitoring of geodetic observables vital for monitoring Earth system processes. Since its inception, there has been considerable progress made towards setting up the infrastructure necessary for the establishment of the GGOS database. While the challenges that beleaguer the GGOS are acknowledged (at least at global level), the assessment of an attuned GGOS infrastructure in the African context is necessary, yet lacking. In the present contribution, (a) the African preparedness and response to the observing system is assessed, and (b) the specific scientific and technological challenges of establishing a regional GGOS hub for Africa are reviewed. Currently only South Africa has a fundamental geodetic observatory located at Hartebeesthoek, Pretoria. Other countries in Africa have shown interest to participate in global geodetic activities, in particular through interest in the development of a unified African geodetic reference frame (AFREF). In particular interest has been shown in the proposed African VLBI Network (AVN), which will be partially based on existing ex-telecommunication radio antennas. Several countries are investigating their participation in the AVN, including Kenya, Nigeria and Ghana. Space geodetic techniques and satellite missions play a crucial role in the determination and monitoring of geo-kinematics, Earth's rotation and gravity fields. These three pillars of geodesy provide the basis for determining the geodetic reference frames with high accuracy, spatial resolution and temporal stability. Space geodetic techniques have been used for the assessment of geo-hazards, anthropogenic hazards and in the design of early warning systems for hazard and disasters. In general, space geodesy provides products for Earth observation, science and influences many activities (e.g., building and management) in a modern society. In order to further promote the application of space geodetic methods to solving Earth science problems, the Global Geodetic Observing System (GGOS) of the International Association of Geodesy (IAG) was commissioned as an important geodetic infrastructure that integrates different geodetic techniques (such as Global Navigation Satellite Systems, Very Long Baseline Interferometry, Satellite Laser Ranging, Interferometric Synthetic Aperture Radar and Doppler Orbitography and Radio-positioning Integrated by Satellite), models and analysis techniques for the purpose of ensuring long-term, precise monitoring of geodetic observables vital for monitoring Earth system processes. Since its inception, there has been considerable progress made towards setting up the infrastructure necessary for the establishment of the GGOS database. While the challenges that beleaguer the GGOS are acknowledged (at least at global level), the assessment of an attuned GGOS infrastructure in the African context is necessary, yet lacking. In the present contribution, (a) the African preparedness and response to the observing system is assessed, and (b) the specific scientific and technological challenges of establishing a regional GGOS hub for Africa are reviewed. Currently only South Africa has a fundamental geodetic observatory located at Hartebeesthoek, Pretoria. Other countries in Africa have shown interest to participate in global geodetic activities, in particular through interest in the development of a unified African geodetic reference frame (AFREF). In particular interest has been shown in the proposed African VLBI Network (AVN), which will be partially based on existing ex-telecommunication radio antennas. Several countries are investigating their participation in the AVN, including Kenya, Nigeria and Ghana. ► A geodetic infrastructure called African Geodetic Observing System (AGOS) is proposed. ► Funding limitations, human capacity and lack of building, integrating and maintaining expected challenges. ► The societal and scientific problems that could be addressed by AGOS ought to be understood. ► AGOS system specifications must meet the user requirements. ► AGOS products and services ought to be part of Africa's geospatial information management process. |
| Author | Combrinck, Ludwig Rautenbach, C.J. Hannes Botai, O.J. |
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| References | Poutanen, Knudsen, Lilje, Plag, Scherneck (bib4) 2005; 2 H.-P. Plag, M. Pearlman (Eds.), Global Geodetic Observing System: Meeting the Requirements of a Global Society on a Changing Planet in 2020, 2009. ISBN: 978-3-642-02686-7. UNESCO, Global Geospatial Information Management (GGIM), Africa Preparatory Meeting Draft Report, August 2011. E/ECA/GGIM/11/3. Jin, Wang (bib2) 2008; 97 Rummel (bib7) 2000 R. Wonnacott, GNSS as a Multi-Disciplinary Tool for Africa's Development, AFRICAN SKIES/CIEUX AFRICAINS, No. 12, October 2008. G. Ojwang, Spatial Data Infrastructure—Africa Newsletter 9 (3), March 2010. M. Rothacher, Combination of space geodetic techniques, in: N.R. Vandenberg, K.D. Baver (Eds.), IVS 2002 General Meeting Proceedings, Tsukuba, Japan, June 2002, p. 33. Rummel, Rothacher, Beutler (bib6) 2005; 40 10.1016/j.actaastro.2012.09.002_bib9 10.1016/j.actaastro.2012.09.002_bib8 Rummel (10.1016/j.actaastro.2012.09.002_bib6) 2005; 40 Jin (10.1016/j.actaastro.2012.09.002_bib2) 2008; 97 10.1016/j.actaastro.2012.09.002_bib5 Rummel (10.1016/j.actaastro.2012.09.002_bib7) 2000 10.1016/j.actaastro.2012.09.002_bib3 10.1016/j.actaastro.2012.09.002_bib1 Poutanen (10.1016/j.actaastro.2012.09.002_bib4) 2005; 2 |
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| Title | On the global geodetic observing system: Africa's preparedness and challenges |
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