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Auflistung nach Autor:in "Vockner, Bernhard"

1 - 3 von 3
  • Konferenzbeitrag
    Communicating Geographic Knowledge using the EnerGEO platform – a new presentation strategy coupling geoportal discovery and Energeo pilot result presentation in a new tile-design platform approach
    (Proceedings of the 27th Conference on Environmental Informatics - Informatics for Environmental Protection, Sustainable Development and Risk Management, 2013) Mittlboeck, Manfred; Vockner, Bernhard; Atzl, Caroline
    Within the EU FP7 EnerGEO project a new geoplatform, which provides information from and for the energy domain has been created. With its link to the GEOSS portal it promotes technical and semantic interoperability as well as efficient discovery mechanisms connecting expert and casual users across all businesses. The concept of this geoplatform is geared to the task-oriented and goal-oriented design philosophy concepts. The new extended geoplatform approach focuses on the needs for communicating geographic knowledge to users, consumers and communities. It presents content and knowledge via an easy-to-understand interface, which is based on a tile-based design philosophy for geographic knowledge communication on the Web. The geoplatform also introduces a geo-semantically enriched recommender system for enhancing the hits of successful and accurate discovery results. The integration of a smart recommender system into the geoplatform enriches content with information derived from semantic text matching and user interactions.
  • Konferenzbeitrag
    Environmental ‘live‘-monitoring utilizing geoKnowledge Design principles
    (EnviroInfo Dessau 2012, Part 1: Core Application Areas, 2012) Mittlboeck, Manfred; Vockner, Bernhard; Richter, Andreas; Heistracher, Thomas
    Within the scope of this paper, we present a new and enhanced strategy in organizing ‘live’ GIS enabled monitoring of environmental parameters based on ‘geoKnowledge Design patterns. This approach is able to enhance the broad and sustainable availability of environmental sensing information for an increasing spatially enabled society. The proposed concept is based on and combines the principles of GeoDesign, Open Knowledge and Open Government Data to leverage the potential of environmental resources collected and monitored by public and private organizations around the world. It aims to realize the full potential formalized processes, tools and components utilizing distributed spatial information infrastructures. This is especially important for opening vast amounts of environmental monitoring ‘live’ data and derived information to different domains and user groups in a structured and harmonized manner. The approach is based on generic building blocks that can be (re)used, (re)combined, (re)scaled and cognitively (re)assembled in an iterative manner, sharing formalized information and knowledge pieces. To validate this strategy in the context of environmental monitoring with regard to a transparent integration into geographic information systems, the ‘SenSer Toolbox Family’ as a set of service components for environmental ‘live’ monitoring has been developed showing the strengths, benefits and challenges of this new formalization principles for the sustainable availability and utilization of environmental information.
  • Konferenzbeitrag
    The GEOSS - ENERGEO portal: towards an interactive platform to calculate, forcast and monitor the environmental impact of ernergy carriers
    (Integration of Environmental Information in Europe, 2010) Blaschke, Thomas; Mittlböck, Manfred; Biberacher, Markus; Gadocher, Sabine; Vockner, Bernhard; Hochwimmer, Barbara; Lang, Stefan
    The EU FP7 project ENERGEO is the official EU contribution to the worldwide Global Earth Observation System of Systems (GEOSS) and develops a strategy for a global assessment of the current and future impact of the exploitation of energy resources on the environment. It contributes to the GEO-tasks EN-07-02 and EN-07-03. In this four years project, a global observation strategy will be developed until mid 2013 to appropriately assess the impacts of the current and future transitions in energy-use on the environment by a combination of existing models, existing global datasets from which environmental indicators as well as existing and currently developed models capable of assessing and forecasting environmental impacts and costs of energy exploitation. This paper focuses on developing a distributed system following the GEOSS architecture recommendations. Standardized interfaces for information access (OGC/ISO Web-Map-Service, Web Feature Service and Web Coverage Service) and OGC web processing are utilized for the specific needs of stakeholders which will be incorporated through the GEOSS ‘Energy Community of Practice’.