[ { "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": "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": "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": "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 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": { "demo": "https://icity.hft-stuttgart.de/hftsmartplatform/", "project":"https://www.hft-stuttgart.de/forschung/i-city" }, "refIndex": 3 }, { "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":"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": { "demo": "https://transfer.hft-stuttgart.de/pages/sven.schneider/urbanvis/", "publication":"https://doi.org/10.3390/ijgi9110657 ", "project":"https://www.hft-stuttgart.de/forschung/i-city" }, "refIndex": 4 }, { "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":"https://transfer.hft-stuttgart.de/pages/huijustinjing/justin-hui_ar-visualization/home/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": "https://transfer.hft-stuttgart.de/pages/huijustinjing/justin-hui_ar-visualization/home/" } }, { "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": "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 } ]