[ { "item": { "title": "Concept and Evaluation of heating demand prediction based on 3D city models and the Energy ADE – case study Helsinki", "project": "Master Thesis", "author": { "firstName": "Maxim", "lastName": "Rossknecht", "hftURL": "https://www.researchgate.net/profile/Maxim-Rossknecht" }, "project_year_start": "2020", "project_year_end": "2020", "project_is_on_going": false, "imageLink":"imgs/thumbnails/Heating_Demand_Helsinki-1-small.png", "keywords":["SimStadt","CityGML", "Urban Simulation"], "description_en":"The City of Helsinki aims to be carbon neutral by 2035. As the heating of buildings causes the greatest portion of greenhouse gas emission in Helsinki, more energy-efficient buildings may be the key to achieving this goal. In this work, the developed concept enables the simulation and further prediction of the heating demand and resulting CO2 emissions based on a 3D city model in various scenarios. ", "description_de":"Die STadt Helsinki strebt an, bis 2035 klimaneutral zu werden. In der Arbeit wurden auf Basis eines 3D-Stadtmodells verschiedene Szenarien zur Wärmeversorgung simuliert. Dabei wurde zur Simulation die an der HFT entwickelte Software SimStadt eingesetzt. " }, "refIndex": 5, "links": { "demo": "https://kartta.hel.fi/3d/heating/Apps/Helsinki/view.html", "publication": "https://doi.org/10.3390/ijgi9100602" } }, { "item": { "title": "COVID-STA", "project": "iCity Project", "author": { "firstName": "Joe", "lastName": "T. Santhanavanich", "hftURL": "https://www.hft-stuttgart.de/p/thunyathep-santhanavanich" }, "project_year_start": "2020", "project_year_end": "", "project_is_on_going": true, "imageLink":"imgs/thumbnails/covidSta.jpg", "keywords":["SensorThings API","COVID-19", "Urban Analytics"], "description_en":"The COVID-STA is the OGC SensorThings API data server which provides an open standard-based and geospatial-enabled framework to interconnect the COVID-19 statistics and applications over the web.", "description_de":"Der COVID-STA ist der OGC SensorThings API-Datenserver, der ein auf offenen Standards basierendes und raumbezogenes Framework zur Verfügung stellt, um die COVID-19-Statistiken und Anwendungen über das Web miteinander zu verbinden." }, "links": { "demo": "https://covidsta.hft-stuttgart.de/server/", "project":"https://www.hft-stuttgart.com/news/covid-19-dashboard-von-hft-stuttgart-entwickelt", "publication": "https://doi.org/10.5194/isprs-annals-VI-4-W2-2020-135-2020" }, "refIndex": 1 }, { "item": { "title": "3D E-bike", "project": "iCity Project", "author": { "firstName": "Joe", "lastName": "T. Santhanavanich", "hftURL": "https://www.hft-stuttgart.de/p/thunyathep-santhanavanich" }, "project_year_start": "2018", "project_year_end": "2021", "project_is_on_going": false, "imageLink":"imgs/thumbnails/3DEbike.gif", "keywords":["SensorThings API","CityGML","GIS Analyst","3D GIS","GIS Analyst", "Urban Analytics"], "description_en":"The 3D E-bike Tracking is a 3D web-based visual analytics application designed showing various parameters from sensor systems equipped on the E-bike sharing system in the study area of a city of Stuttgart, Germany.", "description_de":"Das 3D E-bike Tracking ist eine 3D Webanwendung zu visuellen Analyse und ist designed um verschiedene Parameter von Sensor Systemen zu zeigen. Die Sensoren sind am E-bike Sharing Systemes der Stadt Stuttgart (Deutschland) installiert." }, "links": { "youtube": "https://www.youtube.com/watch?v=GzvrmpM9zmw", "demo": "http://thunyatheps.com/icityebike/", "publication":"https://doi.org/10.5194/isprs-annals-IV-4-W7-115-2018", "project":"https://www.hft-stuttgart.de/forschung/i-city" }, "refIndex": 1 }, { "item": { "title": "3D Web Anwendung ", "project": "SmartVillages Project", "author": { "firstName": "Patrick", "lastName": "Würstle", "hftURL": "https://www.hft-stuttgart.de/p/patrick-wuerstle" }, "project_year_start": "2018", "project_year_end": "2020", "project_is_on_going": false, "imageLink":"imgs/thumbnails/SmartVillages2.png", "keywords":["CityGML","3D GIS","Urban Analytics"], "description_en":"In the SmartVillages project, a cooperation with the LGL (Landesamt für Geoinformation und Landentwicklung - State Office for Geoinformation and Land Development), a platform for visualizing the project results was created.", "description_de":"Im Projekt SmartVillages, eine Kooperation mit dem LGL (Landesamt für Geoinformation und Landentwicklung), wurde eine Plattform zur Visualisierung der Verschiedenen Projektinhalte erstellt." }, "links": { "demo": "https://3dweb.lgl-bw.de/3D/SmartVillages/#/", "project":"https://www.hft-stuttgart.de/forschung/projekte/aktuell/smart-villages", "publication":"https://dl.acm.org/doi/10.1145/3396851.3402650" }, "refIndex": 24 }, { "item": { "title": "3D Erlebnispfad Wüstenrot", "project": "SmartVillages Project", "author": { "firstName": "Patrick", "lastName": "Würstle", "hftURL": "https://www.hft-stuttgart.de/p/patrick-wuerstle" }, "project_year_start": "2018", "project_year_end": "2020", "project_is_on_going": false, "imageLink":"imgs/thumbnails/SmartVillages.png", "keywords":["CityGML","3D GIS","Urban Analytics"], "description_en":"In the SmartVillages project, a cooperation with the LGL (Landesamt für Geoinformation und Landentwicklung - State Office for Geoinformation and Land Development), a platform for visualizing the energy experience path in Wüstenrot was created.", "description_de":"Im Projekt SmartVillages, eine Kooperation mit dem LGL (Landesamt für Geoinformation und Landentwicklung), wurde eine Plattform zur Visualisierung des Energeierlebnispfades in Wüstenrot erstellt." }, "links": { "demo": "https://3dweb.lgl-bw.de/3D/EEP-Wuestenrot/#/", "project":"https://www.hft-stuttgart.de/forschung/projekte/aktuell/smart-villages" }, "refIndex": 24 }, { "item": { "title": "HFT Smart Platform", "project": "iCity Project", "author": { "firstName": "Joe", "lastName": "T. Santhanavanich", "hftURL": "https://www.hft-stuttgart.de/p/thunyathep-santhanavanich" }, "project_year_start": "2020", "project_year_end": "2022", "project_is_on_going": true, "imageLink":"imgs/thumbnails/hftSmart.JPG", "keywords":["CityGML","3D GIS","GIS Analyst","Urban Analytics"], "description_en":"The HFT Smart Platform aimed at sharing municipal and enviromental information in the city of Stuttgart; making them usable for science, administration and citizens", "description_de":"Die HFT Smart Platform hat das Ziel, kommunale und umweltrelevante Informationen in der Stadt Stuttgart gemeinsam zu nutzen; sie für Wissenschaft, Verwaltung und Bürger nutzbar zu machen" }, "links": { "demo": "https://icity.hft-stuttgart.de/hftsmartplatform/", "project":"https://www.hft-stuttgart.de/forschung/i-city", "publication":"https://doi.org/10.5194/isprs-annals-VI-4-W2-2020-157-2020" }, "refIndex": 3 }, { "item": { "title": "Outdoor Mobile Augmented Reality in Urban Planning", "project": "Master Thesis", "author": { "firstName": "Justin ", "lastName": "Jing Hui", "hftURL": "#" }, "project_year_start": "2020", "project_year_end": "2021", "project_is_on_going": false, "imageLink":"content/justin/ezgif.com-gif-maker.gif", "keywords":["Augmented Reality","Urban Planning"], "description_en":"This thesis aims to develop an outdoor mobile AR application that visualizes the urban environment using the mentioned grayscale masking filters.", "description_de":"Ziel dieser Arbeit ist es, eine mobile AR-Anwendung für den Außenbereich zu entwickeln, die die urbane Umgebung mithilfe von Graustufen-Maskierungsfiltern visualisiert." }, "refIndex": 5, "links": { "demo": "content/justin/index.html", "publication": "content/justin/thesis.pdf" } }, { "item": { "title": "3D Wind Simulation", "project": "iCity Project", "author": { "firstName": "Sven", "lastName": "Schneider", "hftURL": "https://www.hft-stuttgart.de/p/Sven-Schneider" }, "project_year_start": "2018", "project_year_end": "2021", "project_is_on_going": false, "imageLink":"https://transfer.hft-stuttgart.de/pages/sven.schneider/urbanvis/imgs/thumbnails/Kirchturm_Partikel_2.jpg", "keywords":["CityGML","3D GIS","GIS Analyst","Urban Analytics"], "description_en":"Explore different ways of visualizing 3D data such as Computational Fluid Dynamics (CFD) simulations in urban enviroments in your web-browser. Select a visualization scheme below and interactively explore the content. Visualizations are based on CesiumJS .", "description_de":"Erkunden Sie verschiedene Möglichkeiten der Visualisierung von 3D-Daten, wie z. B. Computational Fluid Dynamics (CFD)-Simulationen in urbanen Umgebungen in Ihrem Webbrowser. Wählen Sie unten ein Visualisierungsschema aus und erkunden Sie interaktiv den Inhalt. Die Visualisierungen basieren auf CesiumJS ." }, "links": { "demo": "https://urbanvis.hft-stuttgart.de/", "publication":"https://doi.org/10.3390/ijgi9110657 ", "project":"https://www.hft-stuttgart.de/forschung/i-city" }, "refIndex": 4 }, { "item": { "title": "3D GeoVolumes", "project": "iCity Project", "author": { "firstName": "Joe", "lastName": "T. Santhanavanich", "hftURL": "https://www.hft-stuttgart.de/p/thunyathep-santhanavanich" }, "project_year_start": "2019", "project_year_end": "2021", "project_is_on_going": false, "imageLink":"imgs/thumbnails/geovolumes.jpg", "keywords":["OGC","3D GIS","3D Tiles","I3S", "gLTF"], "description_en":"The GeoVolumes API is a draft specification from OGC to unify access to global 3D model and terrain data across a range of formats, platforms, and technologies.", "description_de":"Die GeoVolumes API ist ein Spezifikationsentwurf von OGC, um den Zugriff auf globale 3D-Modell- und Geländedaten über eine Reihe von Formaten, Plattformen und Technologien hinweg zu vereinheitlichen." }, "links": { "demo": "https://steinbeis-3dps.eu/3DGeoVolumes/", "publication":"https://docs.ogc.org/per/20-030.html", "project":"https://www.hft-stuttgart.de/forschung/i-city" }, "refIndex": 5 }, { "item": { "title": "Kesselkompass", "project": "M4_Lab", "author": { "firstName": "Patrick", "lastName": "Würstle", "hftURL": "https://www.hft-stuttgart.de/p/patrick-wuerstle" }, "project_year_start": "2018", "project_year_end": "2024", "project_is_on_going": true, "imageLink":"imgs/thumbnails/M4_LabPortal.PNG", "keywords":["CityGML","Participation","Acoustic","Urban Analytics","3D Visualization"], "description_en":"The Kesselkompass platform is an Application developed in the M4_Lab for public participation and the visualization of acoustic, energy, and mobility.", "description_de":"Die Kesselkompass-Plattform ist eine im M4_Lab entwickelte Anwendung zur Bürgerbeteiligung und Visualisierung von Akustik, Energie und Mobilität." }, "links": { "demo": "https://m4lab.hft-stuttgart.de/partizipation/", "project":"https://www.hft-stuttgart.de/forschung/projekte/aktuell/m4-lab-innovative-hochschule" }, "refIndex": 3 }, { "item": { "title": "3D Portrayal Service Example", "project": "SmartVillages", "author": { "firstName": "Patrick", "lastName": "Würstle", "hftURL": "https://www.hft-stuttgart.de/p/patrick-wuerstle" }, "project_year_start": "2018", "project_year_end": "2020", "project_is_on_going": false, "imageLink":"imgs/thumbnails/3DPSExampleNiedernhall.PNG", "keywords":["CityGML","3D Visualization", "3D Portrayal Service"], "description_en":"This Example Application shows the visualization of 3D Tiles content such as Buildings and trees served over a 3D Portrayal Service.", "description_de":"Diese Beispielanwendung zeigt die Visualisierung von 3D-Tiles-Inhalten wie Gebäuden und Bäumen, die über einen 3D-Portrayal Service bereitgestellt werden." }, "links": { "demo": "http://193.196.38.112:8086/#/", "project":"https://www.hft-stuttgart.de/forschung/projekte/aktuell/smart-villages" }, "refIndex": 3 }, { "item": { "title": "Vision Zero", "project": "Hackathon", "author": { "firstName": "Joe", "lastName": "T. Santhanavanich", "hftURL": "https://www.hft-stuttgart.de/p/thunyathep-santhanavanich" }, "project_year_start": "2019", "project_year_end": "2019", "project_is_on_going": false, "imageLink":"imgs/thumbnails/visionZero.jpeg", "keywords":["CityGML","3D GIS","GIS Analyst","Urban Analytics"], "description_en":"The VISION ZERO is an application for safety routing with the visualization of 3D grid and heatmap. Developed at hackathon event 'Neue Wege für die Mobilität in Augsburg'. (24 hours time limited)", "description_de":"VISION ZERO ist eine Anwendung zum sicheren Routing mit einer Visualisierung eines 3D Grids und einer Heatmap. Entwickelt bein Hackathon Event 'Neue Wege für die Mobilität in Augsburg'. (24 Stunden Zeit begrenzt)" }, "links": { "youtube": "https://www.youtube.com/watch?v=T5jF20yXcWw", "demo": "http://193.196.37.89:8083/visionzero/", "publication":"https://doi.org/10.5194/isprs-annals-VI-4-W2-2020-143-2020", "project":"https://www.hft-stuttgart.de/forschung/i-city" }, "refIndex": 2 }, { "item": { "title": "Multi-scale Urban Scenario Interface", "project": "iCity", "author": { "firstName": "Rosanny", "lastName": "Sihombing", "hftURL": "https://www.hft-stuttgart.de/p/rosanny-sihombing" }, "project_year_start": "2017", "project_year_end": "2021", "project_is_on_going": false, "imageLink":"http://icity.hft-stuttgart.de/musi/logo.png", "keywords":["Energy Simulation Tool", "Urban Planning", "3D Visualization"], "description_en":"Multi-Scale Urban Scenario Interface (MUSI) provides a web-based, scalable software system for energy planning. It considers both economic and energy analysis for retrofit and energy efficiency measurement.", "description_de":"Multi-Scale Urban Scenario Interface (MUSI) bietet ein webbasiertes, skalierbares Softwaresystem für die Energieplanung. Es berücksichtigt sowohl wirtschaftliche als auch energetische Analysen für die Sanierung und Energieeffizienzmessung." }, "links": { "youtube": "https://vimeo.com/435727966", "demo": "http://icity.hft-stuttgart.de/musi.html", "publication":"http://dx.doi.org/10.5220/0010406201100117", "project":"https://www.hft-stuttgart.de/forschung/projekte/aktuell/icity-musi" }, "refIndex": 3 }, { "item": { "title": "Heating Grid Disaggregation Algorithm", "project": "ENsource", "author": { "firstName": "Pithon", "lastName": "Kabiro", "hftURL": "https://www.hft-stuttgart.de/p/pithon-kabiro" }, "project_year_start": "2019", "project_year_end": "2021", "project_is_on_going": false, "imageLink":"imgs/thumbnails/heating_grid_disaggregation.png", "keywords":["Energy System Optimization", "District Heating", "Energy System Modelling"], "description_en":"This tool enables the coupling of Simstadt (a tool that is used to assess building heating demands, developed and validated at HfT Stuttgart) with KomMod (an energy system optimization tool developed at Fraunhofer ISE, Freiburg). The tool enables the study of optimal amount of centrally supplied heat and the layout of the supplying heating grid.", "description_de":"Dieses Tool ermöglicht die Kopplung von Simstadt (ein Tool zur Abschätzung des Wärmebedarfs von Gebäuden, entwickelt und validiert an der HfT Stuttgart) mit KomMod (ein am Fraunhofer ISE, Freiburg, entwickeltes Tool zur Energiesystemoptimierung). Das Tool ermöglicht die Untersuchung der optimalen Menge an zentral zugeführter Wärme und der Auslegung des versorgenden Wärmenetzes." }, "links": { "demo": "https://transfer.hft-stuttgart.de/gitlab/ensource-2/disaggregation", "publication":"https://doi.org/10.3390/resources10050052", "project":"https://www.hft-stuttgart.de/forschung/projekte/aktuell/ensource-2-foerderphase" }, "refIndex": 3 }, { "item": { "title": "Energy Dashboard Prototype", "project": "iCity", "author": { "firstName": "Pithon", "lastName": "Kabiro", "hftURL": "https://www.hft-stuttgart.de/p/pithon-kabiro" }, "project_year_start": "2018", "project_year_end": "2021", "project_is_on_going": false, "imageLink":"imgs/thumbnails/icity_tp31_energy_dashboard.png", "keywords":["Sensors", "Energy", "SensorThings API"], "description_en":"This tool is used for the continuous monitoring and optimization of energy flows within the Robert Bosch GmbH property at Schwieberdingen. This is achieved by allowing users to interact with historical observations from a variety of energy-related sensors.", "description_de":"Dieses Tool wird für die kontinuierliche Überwachung und Optimierung der Energieflüsse innerhalb der Liegenschaft der Robert Bosch GmbH in Schwieberdingen eingesetzt. Dies wird dadurch erreicht, dass die Benutzer mit historischen Messwerten von einer Vielzahl von energiebezogenen Sensoren interagieren können." }, "links": { "demo": "https://transfer.hft-stuttgart.de/gitlab/icity/energydashboard", "project":"https://www.hft-stuttgart.de/forschung/i-city" }, "refIndex": 3 }, { "item": { "title": "Quality ADE for CityGML", "project": "CityDoctor2", "author": { "firstName": "Matthias", "lastName": "Betz", "hftURL": "https://www.hft-stuttgart.de/p/matthias-betz" }, "project_year_start": "2019", "project_year_end": "2021", "project_is_on_going": true, "imageLink":"imgs/thumbnails/QualityADE_Icon.png", "keywords":["ADE", "CityGML", "Quality"], "description_en":"This ADE enables the storage of validation data in CityGML files themselves. It can be used to improve CityGML file generation or simulation applications.", "description_de":"Die Erweiterung ermöglicht die Speicherung von Validierungsdaten in CityGML Dateien. Die Validierungsdaten können verwendet werden um die Generierung von CityGML Dateien oder Ergebnisse von Simulationen zu verbessern." }, "links": { "demo": "", "publication":"", "project":"https://transfer.hft-stuttgart.de/gitlab/citydoctor/qualityade" }, "refIndex": 6 }, { "item": { "title": "CityDoctor2", "project": "CityDoctor2", "author": { "firstName": "Matthias", "lastName": "Betz", "hftURL": "https://www.hft-stuttgart.de/p/matthias-betz" }, "project_year_start": "2019", "project_year_end": "2021", "project_is_on_going": true, "imageLink":"imgs/thumbnails/CityDoctorScreen.png", "keywords":["Quality", "Validation", "Repairing", "Healing"], "description_en":"CityDoctor2 is able to validate CityGML files for their geometric and semantic correctness and writing the results in CityGML back or write reports in different file formats. It is also capable of repairing some more common errors in geometries.", "description_de":"CityDoctor2 is in der Lage CityGML Dateien auf ihre geometrische und sematische Korrektheit zu überprüfen. Die Ergebnisse können zurück in die CityGML Datei oder in seperate Report Dateien geschrieben werden. CityDoctor2 kann zum Teil häufig vorkommende geometrische Fehler automatisch reparieren." }, "links": { "demo": "", "publication":"https://doi.org/10.1007/s41064-020-00094-0", "project":"https://projekt.beuth-hochschule.de/citydoctor2/" }, "refIndex": 7 }, { "item": { "title": "SolidInjector for CityGML", "project": "CityDoctor2", "author": { "firstName": "Rushikesh", "lastName": "Padsala", "hftURL": "https://www.hft-stuttgart.com/p/rushikesh-padsala" }, "project_year_start": "2019", "project_year_end": "2021", "project_is_on_going": true, "imageLink":"imgs/thumbnails/SolidInjector.png", "keywords":["CityGML", "Building Solids", "FME"], "description_en":"SolidInjector for CityGML is a set of FME based workbenches to replace incorrect CityGML building/building-part solid geometries with correct solid geometries as instructed in the OGC CityGML v2.0 encoding conformance requirement 10.3.9.4 which instructs using xlink mechanism of GML to generate building solids.", "description_de":"SolidInjector für CityGML ist eine Reihe von FME-basierten Workbenches zum Ersetzen von fehlerhaften Solid-Geometrien von CityGML LoD 2 Gebäuden / Gebäudeteilen durch korrekte Solid-Geometrien gemäß der Konformitätsanforderung 10.3.9.4 von OGC CityGML v2.0, die den Xlink-Mechanismus von GML für die Modellierung von Gebäude-Solid-Geometrie nutzt." }, "links": { "youtube": "https://www.youtube.com/watch?v=PY904hd2hMI&ab_channel=CIVTutorials", "demo": "https://gitlab.com/volkercoors/CiD4Sim/-/wikis/usefulTools/FME-Workbenches", "project":"https://projekt.beuth-hochschule.de/citydoctor2/" }, "refIndex": 8 }, { "item": { "title": "Gerlingen Heat Demand Viewer", "project": "iCity", "author": { "firstName": "Rushikesh", "lastName": "Padsala", "hftURL": "https://www.hft-stuttgart.com/p/rushikesh-padsala" }, "project_year_start": "2017", "project_year_end": "2021", "project_is_on_going": true, "imageLink":"imgs/thumbnails/Gerlingen3DViewer.png", "keywords":["3D City Model", "CityGML", "Heat Demand Simulation"], "description_en":"The Gerlingen heat demand viewer shows system level average heat demand simulation for Gerlingen, Landkreis Ludwigsburg, Germany. The heat demand simulation is done in an urban energy simulator, SimStadt. The aggregation of heat demand results on the system level is done using a grid of 50 x 50m. The aggregation values us then stored in the CityGML Food Water ADE SystemADE and then visualised on the web.", "description_de":"Der Gerlingen-Wärmebedarfs-Viewer zeigt eine Simulation des durchschnittlichen Wärmebedarfs auf Systemebene für Gerlingen, Landkreis Ludwigsburg, Deutschland. Die Wärmebedarfssimulation erfolgt in einem städtischen Energiesimulator, SimStadt. Die Aggregation der Wärmebedarfsergebnisse auf Systemebene erfolgt über ein Raster von 50 x 50 m. Die Aggregationswerte werden von uns dann im CityGML Food Water Energy SystemADE gespeichert und anschließend im Web visualisiert." }, "links": { "demo": "https://transfer.hft-stuttgart.de/pages/icity/gerlingen3dviewer/", "project":"https://www.hft-stuttgart.de/forschung/i-city" }, "refIndex": 9 }, { "item": { "title": "Rainau Water Demand Viewer", "project": "IN-SOURCE", "author": { "firstName": "Rushikesh", "lastName": "Padsala", "hftURL": "https://www.hft-stuttgart.com/p/rushikesh-padsala" }, "project_year_start": "2018", "project_year_end": "2021", "project_is_on_going": true, "imageLink":"imgs/thumbnails/Rainau3DViewer.JPG", "keywords":["3D City Model", "CityGML", "Water Demand Simulation"], "description_en":"The Rainau water demand viewer shows per building annual water demand for Rainau, Germany. The water demand simulation for both residential and non-residential buildings is done in an urban energy simulator, SimStadt.", "description_de":"Der Rainauer Wasserbedarfsviewer zeigt den jährlichen Wasserbedarf pro Gebäude für Rainau, Deutschland. Die Wasserbedarfssimulation für Wohn- und Nichtwohngebäude wird in einem städtischen Energiesimulator, SimStadt, durchgeführt." }, "links": { "demo": "https://transfer.hft-stuttgart.de/pages/in-source/rainau-water-demand-viewer/", "publication":"https://www.mdpi.com/2220-9964/9/11/642", "project":"https://www.hft-stuttgart.de/forschung/projekte/aktuell/in-source" }, "refIndex": 9 }, { "item": { "title": "Landkreis Ludwigsburg 3D Viewer", "project": "IN-SOURCE", "author": { "firstName": "Rushikesh", "lastName": "Padsala", "hftURL": "https://www.hft-stuttgart.com/p/rushikesh-padsala" }, "project_year_start": "2018", "project_year_end": "2021", "project_is_on_going": true, "imageLink":"imgs/thumbnails/LKR3DViewer.jpg", "keywords":["3D City Model", "CityGML", "Food Water Energy Simulation"], "description_en":"A web 3D prototype visualising SimStadt's heat demand, water demand, food demand, biomass potential, food potential and PV potential simulation results for the entire Landkreis Ludwigsburg.", "description_de":"Ein Web-3D-Prototyp, der Simulationsergebnisse von Wärmebedarf, Wasserbedarf, Nahrungsbedarf, Biomassepotenzial, Nahrungspotenzial und PV-Potenzial von SimStadt für den gesamten Landkreis Ludwigsburg visualisiert." }, "links": { "demo": "https://transfer.hft-stuttgart.de/pages/in-source/lkrludwigsburg3d/", "publication":"https://www.isprs-ann-photogramm-remote-sens-spatial-inf-sci.net/VIII-4-W1-2021/81/2021/", "project":"https://www.hft-stuttgart.de/forschung/projekte/aktuell/in-source" }, "refIndex": 9 }, { "item": { "title": "Gowanus CityGML Viewer", "project": "IN-SOURCE", "author": { "firstName": "Rushikesh", "lastName": "Padsala", "hftURL": "https://www.hft-stuttgart.com/p/rushikesh-padsala" }, "project_year_start": "2018", "project_year_end": "2021", "project_is_on_going": true, "imageLink":"imgs/thumbnails/Gowanus3DViewer.JPG", "keywords":["3D City Model", "Rhinoceros3D", "CityGML", "Building Energy Simulation"], "description_en":"The Gowanus CityGML viewer shows the building design scenarios along with its heat energy demand for the NYC's neighborhood of Gowanus, USA. Building geometries are modelled in Rhinoceros3D, coverted to CityGML using FME and its heat demand simulation is done in an urban energy simulator, SimStadt.", "description_de":"Der Gowanus CityGML-Viewer zeigt verschiedene Gebäudedesignszenarien zusammen mit ihrem Wärmeenergiebedarf für den NYC-Bezirk Gowanus, USA. Die Gebäudegeometrien werden in Rhinoceros3D modelliert, mit FME in CityGML konvertiert und der Wärmebedarf wird in einem städtischen Energiesimulator, SimStadt, simuliert." }, "links": { "demo": "https://transfer.hft-stuttgart.de/pages/in-source/gowanus-citygml-viewer/", "publication":"https://www.isprs-ann-photogramm-remote-sens-spatial-inf-sci.net/VIII-4-W1-2021/81/2021/", "project":"https://www.hft-stuttgart.de/forschung/projekte/aktuell/in-source" }, "refIndex": 10 }, { "item": { "title": "Meidling 3D Viewer", "project": "IN-SOURCE", "author": { "firstName": "Rushikesh", "lastName": "Padsala", "hftURL": "https://www.hft-stuttgart.com/p/rushikesh-padsala" }, "project_year_start": "2018", "project_year_end": "2021", "project_is_on_going": true, "imageLink":"imgs/thumbnails/Meidling3DViewer.jpg", "keywords":["3D City Model", "CityGML", "Building Energy Simulation", "Roof PV Simulation"], "description_en":"The Meidling 3D viewer shows the building heat energy demand, roof PV potenial and landuse polygons for the district of Meidling, Vienna. Building stock heat energy demand and roof PV potential is simulated using an urban energy simulator, SimStadt.", "description_de":"Der Meidling 3D-Viewer zeigt den Gebäudeheizenergiebedarf, das Dach-PV-Potenzial und die Landnutzungspolygone für den Bezirk Meidling, Wien. Der Wärmeenergiebedarf des Gebäudebestands und das Dach-PV-Potenzial werden mit einem städtischen Energiesimulator, SimStadt, simuliert." }, "links": { "demo": "https://transfer.hft-stuttgart.de/pages/in-source/meidling-3d-viewer/", "publication":"https://www.isprs-ann-photogramm-remote-sens-spatial-inf-sci.net/VIII-4-W1-2021/81/2021/", "project":"https://www.hft-stuttgart.de/forschung/projekte/aktuell/in-source" }, "refIndex": 11 }, { "item": { "title": "CityGML Food Water Energy (FWE) ADE", "project": "IN-SOURCE", "author": { "firstName": "Rushikesh", "lastName": "Padsala", "hftURL": "https://www.hft-stuttgart.com/p/rushikesh-padsala" }, "project_year_start": "2018", "project_year_end": "2021", "project_is_on_going": true, "imageLink":"imgs/thumbnails/FWEADE.PNG", "keywords":["3D City Model", "CityGML", "ADE", "Food-Water-Energy Nexus", "Data Modelling"], "description_en":"CityGML FWE ADE allows users to store FWE-related parameters in four spatial layers: building, land use, area, and system. FWE ADE facilitates inputs and outputs for various FWE-related simulations and also acts as a central data exchange platform to connect different urban FWE simulators.", "description_de":"CityGML FWE ADE ermöglicht es dem Benutzer, FWE-bezogene Parameter in vier räumlichen Ebenen zu speichern: Gebäude, Landnutzung, Fläche und System. FWE ADE erleichtert Eingaben und Ausgaben für verschiedene FWE-bezogene Simulationen und fungiert außerdem als zentrale Datenaustauschplattform, um verschiedene städtische FWE-Simulatoren miteinander zu verbinden." }, "links": { "demo": "https://transfer.hft-stuttgart.de/pages/in-source/in-source/FWEADE/", "publication":"https://www.isprs-ann-photogramm-remote-sens-spatial-inf-sci.net/VIII-4-W1-2021/81/2021/", "project":"https://www.hft-stuttgart.de/forschung/projekte/aktuell/in-source" }, "refIndex": 12 }, { "item": { "title": "Rhinoceros3D/CityEngine to CityGML", "project": "IN-SOURCE", "author": { "firstName": "Rushikesh", "lastName": "Padsala", "hftURL": "https://www.hft-stuttgart.com/p/rushikesh-padsala" }, "project_year_start": "2018", "project_year_end": "2021", "project_is_on_going": true, "imageLink":"imgs/thumbnails/RhinoCityGML.JPG", "keywords":["3D City Model", "Rhinoceros3D", "ArcGIS CityEngine", "CityGML", "Data Interoperability", "FME"], "description_en":"Rhinoceros3D/CityEngine to CityGML is a repository of FME workbenches used to convert 2D building footrpint shapefiles with building height attributes or 3D building geometries modelled in Rhinoceros3D to CityGML LoD 1 building-building part models and 3D building multipatch shapefile modelled in ArcGIS CityEngine to CityGML LoD 1 - LoD 2 building models. For self-understanding of the conversion process, annotations are available within the FME workbenches.", "description_de":"Rhinoceros3D/CityEngine to CityGML ist ein Repository von FME-Workbenches zur Konvertierung von 2D-Gebäudegrundriss-Shapefiles mit Gebäudehöhenattributen oder 3D-Gebäudegeometrien, die in Rhinoceros3D modelliert wurden, in CityGML LoD 1-Gebäude-/Gebäudeteilmodelle und 3D-Gebäudemultipatch-Shapefiles, die in ArcGIS CityEngine modelliert wurden, in CityGML LoD 1 - LoD 2-Gebäudemodelle. Zum Selbstverständnis des Konvertierungsprozesses stehen innerhalb der FME-Workbenches Annotationen zur Verfügung." }, "links": { "demo": "https://transfer.hft-stuttgart.de/gitlab/rushikesh.padsala/rhino-cityengine2citygml", "publication":"https://repository.corp.at/674/", "project":"https://www.hft-stuttgart.de/forschung/projekte/aktuell/in-source" }, "refIndex": 13 }, { "item": { "title": "Object-based Mobile Augmented Reality", "project": "", "author": { "firstName": "Rosanny", "lastName": "Sihombing" }, "project_year_start": "2016", "project_year_end": "2016", "project_is_on_going": false, "imageLink": "imgs/thumbnails/object-based-mobileAR.png", "keywords": ["3D City Model","Mobile Augmented Reality","Urban planning"], "description_en": "This project demonstrates a simple way to display possible modification of a physical 3D city model using mobile AR.", "description_de": "This project demonstrates a simple way to display possible modification of a physical 3D city model using mobile AR." }, "links": { "youtube": "https://vimeo.com/221005614", //(YouTubebutton) "demo": "", "publication":"https://www.researchgate.net/publication/323884224_Object-Based_Mobile_Augmented_Reality_for_a_3D_Model", //(Publication button) "project":"", "presentation":"" } }, { "item": { "title": "Climate Neutral City Campus", "project": "EnSign", "author": { "firstName": "Rosanny", "lastName": "Sihombing" }, "project_year_start": "2015", "project_year_end": "2018", "project_is_on_going": false, "imageLink":"imgs/thumbnails/campus3D.png", "keywords":["Energy-related data","3D GIS","Zero carbon","Climate neutral"], "description_en": "The project focuses on the transformation process to a climate-neutral university, involving all relevant internal as well as numerous external stakeholders.", "description_de":"Im Mittelpunkt des Vorhabens steht der Transformationsprozess zu einer klimaneutralen Hochschule, wobei alle relevanten internen sowie zahlreiche externe Akteure eingebunden sind." }, "links": { "youtube": "", "demo": "", "publication":"http://dx.doi.org/10.5194/isprs-annals-IV-4-W7-129-2018", //(Publication button) "project":"https://www.hft-stuttgart.de/forschung/projekte/abgeschlossen/ensign", //(Project button) "presentation":"" } } ]