Browser based 3D for the built environment

Digital 3D geometric models have become a central tool for geo-information. For many participatory and collaborative applications, distributing these models easily is essential. Several technical solutions exist for creating online systems that facilitate the study of 3D models in the context of the built environment. To provide an overview on browser based interactive 3D visualizations, we present a set of existing systems applied in Finland, and discuss their common properties and differences. To obtain first-hand experience, we experiment with an online 3D application development platform. The systems studied show a high potential for browser based 3D applications: interactive visualizations with multi-user characteristics and dynamic elements can be built by leveraging the 3D web technologies. Finally, we suggest a framework for discussing browser based 3D systems, covering the spectrum of possibilities available in modern web-based 3D for built environment applications.

[1]  Ben Shneiderman,et al.  The eyes have it: a task by data type taxonomy for information visualizations , 1996, Proceedings 1996 IEEE Symposium on Visual Languages.

[2]  Ian Brown,et al.  Developing a Virtual Reality User Interface (VRUI) for Geographic Information Retrieval on the Internet , 1999, Trans. GIS.

[3]  Alan Day Urban visualization and public inquiries: the case of the Heron Tower, London , 2002 .

[4]  Jijun Wang,et al.  A game engine based simulation of the NIST urban search and rescue arenas , 2003, Proceedings of the 2003 Winter Simulation Conference, 2003..

[5]  S. Wenzel,et al.  A taxonomy of visualization techniques for simulation in production and logistics , 2003, Proceedings of the 2003 Winter Simulation Conference, 2003..

[6]  T. H. Kolbe,et al.  CityGML: Interoperable Access to 3D City Models , 2005 .

[7]  Dino Bouchlaghem,et al.  Visualisation in architecture, engineering and construction (AEC) , 2005 .

[8]  R. Wack,et al.  Laser DTM generation for South-Tyrol and 3D-Visualization , 2005 .

[9]  Stephen R.J. Sheppard,et al.  Culture and communication: Can landscape visualization improve forest management consultation with indigenous communities? , 2006 .

[10]  Shi Pu,et al.  AUTOMATIC EXTRACTION OF BUILDING FEATURES FROM TERRESTRIAL LASER SCANNING , 2006 .

[11]  George Vosselman,et al.  Automatic extraction of building features from terrestrial laser scanning , 2006 .

[12]  William E. Cartwright,et al.  Comparison of Techniques for Visualising Fire Behaviour , 2007, Trans. GIS.

[13]  Jürgen Döllner,et al.  Virtual 3D City Models as Foundation of Complex Urban Information Spaces , 2007 .

[14]  Olaf Schroth,et al.  Approaches to integrating indicators into 3D landscape visualisations and their benefits for participative planning situations. , 2008, Journal of environmental management.

[15]  Louise H. Kellogg,et al.  Immersive Visualization and Analysis of LiDAR Data , 2008, ISVC.

[16]  Shamus P. Smith,et al.  Computer game engines for developing first-person virtual environments , 2008, Virtual Reality.

[17]  Antônio Carlos A. Mól,et al.  Using a Game Engine for VR Simulations in Evacuation Planning , 2008, IEEE Computer Graphics and Applications.

[18]  Juha Hyyppä,et al.  Retrieval Algorithms for Road Surface Modelling Using Laser-Based Mobile Mapping , 2008, Sensors.

[19]  Markku Kiviniemi,et al.  BIM-based Site Layout and Safety Planning , 2009 .

[20]  Paul van Schaik,et al.  Using interactive 3-D visualization for public consultation , 2010, Interact. Comput..

[21]  Jianya Gong,et al.  A virtual globe-based 3D visualization and interactive framework for public participation in urban planning processes , 2010, Comput. Environ. Urban Syst..

[22]  Susanne Bleisch,et al.  Rich point clouds in virtual globes - A new paradigm in city modeling? , 2010, Comput. Environ. Urban Syst..

[23]  Juha Hyyppä,et al.  Mapping Topography Changes and Elevation Accuracies Using a Mobile Laser Scanner , 2011, Remote. Sens..

[24]  Toni Alatalo,et al.  An Entity-Component Model for Extensible Virtual Worlds , 2011, IEEE Internet Computing.

[25]  Cyril Ray,et al.  Applications and Benefits for the Development of Cartographic 3D Visualization Systems in support of Maritime Safety , 2011 .

[26]  J. Hyyppä,et al.  Mobile laser scanning in fluvial geomorphology: mapping and change detection of point bars , 2011 .

[27]  Adam Weintrit International Recent Issues about ECDIS, e-Navigation and Safety at Sea : Marine Navigation and Safety of Sea Transportation , 2011 .

[28]  Juha Hyyppä,et al.  Photorealistic Building Reconstruction from Mobile Laser Scanning Data , 2011, Remote. Sens..

[29]  Wei Yan,et al.  Integrating BIM and gaming for real-time interactive architectural visualization , 2011 .

[30]  Sp Coates,et al.  BIM implementation and adoption process for an architectural practice , 2011 .

[31]  Gary Higgs,et al.  Web‐based GIS Approaches to Enhance Public Participation in Wind Farm Planning , 2011, Trans. GIS.

[32]  Radu Bogdan Rusu,et al.  3D is here: Point Cloud Library (PCL) , 2011, 2011 IEEE International Conference on Robotics and Automation.

[33]  Dieter Fox,et al.  RGB-D mapping: Using Kinect-style depth cameras for dense 3D modeling of indoor environments , 2012, Int. J. Robotics Res..

[34]  Juha Hyyppä,et al.  Benchmarking the Performance of Mobile Laser Scanning Systems Using a Permanent Test Field , 2012, Sensors.

[35]  Yuwei Chen,et al.  Multiplatform Mobile Laser Scanning: Usability and Performance , 2012, Sensors.

[36]  Lutz Plümer,et al.  CityGML – Interoperable semantic 3D city models , 2012 .

[37]  Sung Ah Kim,et al.  Integrated energy monitoring and visualization system for Smart Green City development: Designing a spatial information integrated energy monitoring model in the context of massive data management on a web based platform , 2012 .

[38]  Salman Azhar,et al.  Building information modelling (BIM): now and beyond , 2012 .

[39]  T. M. Klein,et al.  Understanding ecosystem services trade-offs with interactive procedural modeling for sustainable urban planning , 2013 .

[40]  Andreas Geiger,et al.  ENHANCED LOD CONCEPTS FOR VIRTUAL 3D CITY MODELS , 2013 .

[41]  Hui Lin,et al.  Virtual Geographic Environments (VGEs): A New Generation of Geographic Analysis Tool , 2013 .

[42]  Maria Antonia Brovelli,et al.  THE POWER OF VIRTUAL GLOBES FOR VALORISING CULTURAL HERITAGE AND ENABLING SUSTAINABLE TOURISM: NASA WORLD WIND APPLICATIONS , 2013 .

[43]  Juha Hyyppä,et al.  The Use of Airborne and Mobile Laser Scanning for Modeling Railway Environments in 3D , 2014, Remote. Sens..

[44]  Tapani Sarjakoski,et al.  Developing a Multi-Touch Map Application for a Large Screen in a Nature Centre , 2014 .

[45]  Adrienne Grêt-Regamey,et al.  Developing a GIS-Based Visual-Acoustic 3D Simulation for Wind Farm Assessment , 2014, ISPRS Int. J. Geo Inf..

[46]  Filip Biljecki,et al.  Applications of 3D City Models: State of the Art Review , 2015, ISPRS Int. J. Geo Inf..

[47]  Gilles Gesquière,et al.  Urban data visualisation in a web browser , 2015, Web3D.

[48]  Thomas H. Kolbe,et al.  Dynamizers - Modeling and Implementing Dynamic Properties for Semantic 3D City Models , 2015, UDMV.

[49]  Juha Hyyppä,et al.  Intelligent Open Data 3D Maps in a Collaborative Virtual World , 2015, ISPRS Int. J. Geo Inf..

[50]  Juha Hyyppä,et al.  Luminance-Corrected 3D Point Clouds for Road and Street Environments , 2015, Remote. Sens..

[51]  Peter van Oosterom,et al.  Massive point cloud data management: Design, implementation and execution of a point cloud benchmark , 2015, Comput. Graph..

[52]  Juha Hyyppä,et al.  Automated 3D Scene Reconstruction from Open Geospatial Data Sources: Airborne Laser Scanning and a 2D Topographic Database , 2015, Remote. Sens..

[53]  Stefan May,et al.  A MAN-PORTABLE, IMU-FREE MOBILE MAPPING SYSTEM , 2015 .

[54]  Maria Seton,et al.  The GPlates Portal: Cloud-Based Interactive 3D Visualization of Global Geophysical and Geological Data in a Web Browser , 2016, PloS one.

[55]  Filip Biljecki,et al.  An improved LOD specification for 3D building models , 2016, Comput. Environ. Urban Syst..

[56]  Sean Gillies,et al.  The GeoJSON Format , 2016, RFC.

[57]  Claus Nagel,et al.  Using glTF for streaming CityGML 3D city models , 2016, Web3D.

[58]  Tim Johansson,et al.  Energy performance certificates and 3-dimensional city models as a means to reach national targets A case study of the city of Kiruna , 2016 .

[59]  Timo Ojala,et al.  VirtualOulu: collaborative, immersive and extensible 3D city model on the web , 2016, Web3D.

[60]  Marina Daecher,et al.  Level Of Detail For 3d Graphics , 2016 .

[61]  Timo Ojala,et al.  Campus knights: situated pervasive display as a window into pseudo-immersive game world , 2016, PerDis.

[62]  Tao Liu,et al.  An approach to 3D model fusion in GIS systems and its application in a future ECDIS , 2016, Comput. Geosci..

[63]  Wenwen Li,et al.  PolarGlobe: A web-wide virtual globe system for visualizing multidimensional, time-varying, big climate data , 2017, Int. J. Geogr. Inf. Sci..

[64]  Juha Hyyppä,et al.  Depth camera indoor mapping for 3D virtual radio play , 2018 .

[65]  Harri Kaartinen,et al.  Multiplatform mobile laser scanning , 2019, Laser Scanning.