IMPLEMENTATION OF A COMPREHENSIVE AND EFFECTIVE GEOPROCESSING WORKFLOW ENVIRONMENT
Autor: | Lemmens, R., Toxopeus, B., Boerboom, L., Schouwenburg, M., Retsios, B., Nieuwenhuis, W., Mannaerts, C., Brovelli, M.A., Namangaya, A.H. |
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Přispěvatelé: | Department of Geo-information Processing, Faculty of Geo-Information Science and Earth Observation, UT-I-ITC-STAMP, Department of Natural Resources, UT-I-ITC-FORAGES, Department of Urban and Regional Planning and Geo-Information Management, UT-I-ITC-PLUS, Department of Water Resources, UT-I-ITC-WCC |
Rok vydání: | 2018 |
Předmět: |
lcsh:Applied optics. Photonics
Earth observation Geographic information system lcsh:T Geoprocessing business.industry Computer science Software development lcsh:TA1501-1820 lcsh:Technology Workflow Geoprocessing workflow Remote Sensing Software lcsh:TA1-2040 Sustainable management Information system Earth Observation lcsh:Engineering (General). Civil engineering (General) Software engineering business Implementation |
Zdroj: | FOSS4G 2018 : – Academic Track (Volume XLII-4/W8) 29–31 August 2018, Dar es Salaam, Tanzania: ISPRS 2018, XLII-4/W8(4W8), 123-127 The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XLII-4-W8, Pp 123-127 (2018) |
ISSN: | 2194-9034 |
Popis: | Many projects and research efforts implement geo-information (GI) workflows, ranging from very basic ones to complicated software processing chains. The creation of these workflows normally needs considerable expertise and sharing them is often hampered by undocumented and non-interoperable geoprocessing implementations. We believe that the visual representation of workflows can help in the creation, sharing and understanding of software processing of geodata. In our efforts we aim at bridging abstract and concrete workflow representations for the sake of easing the creation and sharing of simple geoprocessing logic within and across projects. We have implemented a first version of our workflow approach in one of our current projects. MARIS, the Mara Rangeland Information System, is being developed in the Mau Mara Serengeti SustainableWater Initiative (MaMaSe). It is a web client that uses the Integrated Land and Water Information System (ILWIS), our open source Remote Sensing and GIS software. It aims to integrate historic, near real time and near future forecast of rainfall, biomass, carrying capacity and livestock market information for the sustainable management of rangelands by conservancies in the Maasai Mara in Kenya. More importantly it aims to show results of a carrying capacity model implemented in a comprehensive geoprocessing workflow. In this paper we briefly describe our software and show the workflow implementation strategy and discuss the innovative aspects of our approach as well as our project evaluation and the opportunities for further grounding of our software development. |
Databáze: | OpenAIRE |
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