Difference between revisions of "2014 S HfT EnergyADE"
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In CityGML 2.0 a building is described by its geometry in five different level of details, and a set of sttributes such as usage, yearOf Construction, etc. More specific, the spatial entity "building" of the real world is defined by a "BuildingType" in CityGML. A BuildingType is the blueprint of every building in the real world. However, some attributes that are essential for our simulation purposes are missing in the CityGML BuildingType. The BuildingType references it's bounding surfaces. These surfaces are defined by "AbstractBoundarySurfaceType" and by the inferred types "GroundSurface", "WallSurface" and "RoofSurface". | In CityGML 2.0 a building is described by its geometry in five different level of details, and a set of sttributes such as usage, yearOf Construction, etc. More specific, the spatial entity "building" of the real world is defined by a "BuildingType" in CityGML. A BuildingType is the blueprint of every building in the real world. However, some attributes that are essential for our simulation purposes are missing in the CityGML BuildingType. The BuildingType references it's bounding surfaces. These surfaces are defined by "AbstractBoundarySurfaceType" and by the inferred types "GroundSurface", "WallSurface" and "RoofSurface". | ||
− | In order to extend the BuildingType and the AbstractBoundarySurfaceType in CityGML, an Application Domain Extension (ADE) has to be developed. This ADE will be called Energy ADE. Goal: Extend the CityGML format with building energy state information data, in order to lead energy diagnostics/simulation and be able to plan energy refurbishment | + | In order to extend the BuildingType and the AbstractBoundarySurfaceType in CityGML, an Application Domain Extension (ADE) has to be developed. This ADE will be called Energy ADE. Goal: Extend the CityGML format with building energy state information data, in order to lead energy diagnostics/simulation and be able to plan energy refurbishment. |
− | + | As an example take a look at the UML diagram for an EnergyADE of the HFT Stuttgart: | |
− | + | [[File:Uml-energy-ade.png|left|HFT Stuttgart UML Energy ADE]] | |
− | [[media:Energy.ADE-0.2-Rev.14.zip|Energy ADE v0.2 (Revision 14)]] | + | '''The HFT Stuttgart proposal for an EnergyADE''' |
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+ | The following ZIP contains the current version (revision 14) of the Energy ADE 0.2 of the HFT Stuttgart. This ZIP comes with an example GML file showing how to encode and instantiate the defined Energy ADE. | ||
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+ | [[media:Energy.ADE-0.2-Rev.14.zip|HFT Stuttgart Energy ADE v0.2 (Revision 14)]] | ||
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+ | '''The TU Munich proposal for an EnergyADE''' | ||
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+ | Also take a look at the [[media:20140519_EnergyADE_TUM.pdf|EnergyADE proposal of the TU Munich]] |
Latest revision as of 14:18, 19 May 2014
In CityGML 2.0 a building is described by its geometry in five different level of details, and a set of sttributes such as usage, yearOf Construction, etc. More specific, the spatial entity "building" of the real world is defined by a "BuildingType" in CityGML. A BuildingType is the blueprint of every building in the real world. However, some attributes that are essential for our simulation purposes are missing in the CityGML BuildingType. The BuildingType references it's bounding surfaces. These surfaces are defined by "AbstractBoundarySurfaceType" and by the inferred types "GroundSurface", "WallSurface" and "RoofSurface".
In order to extend the BuildingType and the AbstractBoundarySurfaceType in CityGML, an Application Domain Extension (ADE) has to be developed. This ADE will be called Energy ADE. Goal: Extend the CityGML format with building energy state information data, in order to lead energy diagnostics/simulation and be able to plan energy refurbishment.
As an example take a look at the UML diagram for an EnergyADE of the HFT Stuttgart:
The HFT Stuttgart proposal for an EnergyADE
The following ZIP contains the current version (revision 14) of the Energy ADE 0.2 of the HFT Stuttgart. This ZIP comes with an example GML file showing how to encode and instantiate the defined Energy ADE.
HFT Stuttgart Energy ADE v0.2 (Revision 14)
The TU Munich proposal for an EnergyADE
Also take a look at the EnergyADE proposal of the TU Munich