| [1] | Cozzi, P. (2015) Introducing 3D Tiles.
https://cesium.com/blog/2015/08/10/introducing-3d-tiles/
|
| [2] | 3D Tiling with Cesium. Cesium GS, Inc.
https://cesium.com/platform/cesium-ion/3d-tiling-pipeline/
|
| [3] | Sampath, M. (2021) Agisoft Metashape Now Directly Supports Sharing 3D Models with Cesium Ion.
https://cesium.com/blog/2021/09/10/agisoft-metashape-integrated-with-cesium-ion/
|
| [4] | CesiumJS. Cesium GS, Inc.
https://cesium.com/platform/cesiumjs/
|
| [5] | iTowns.
https://github.com/iTowns/itowns
|
| [6] | visgl. deck.gl.
https://github.com/visgl/deck.gl
|
| [7] | NASA-AMMOS. 3DTilesRendererJS.
https://github.com/NASA-AMMOS/3DTilesRendererJS
|
| [8] | Nytimes. Three-Loader-3dtiles.
https://github.com/nytimes/three-loader-3dtiles
|
| [9] | Ebeaufay. Threedtiles.
https://github.com/ebeaufay/threedtiles
|
| [10] | Geodan. Mapbox-3dtiles.
https://github.com/Geodan/mapbox-3dtiles
|
| [11] | Yiqun, C., Erfan, S., Abbas, R. and Soheil, S. (2018) From IFC to 3D Tiles: An Integrated Open-Source Solution for Visualising BIMs on Cesium. ISPRS International Journal of Geo-Information, 7, Article No. 393.
https://doi.org/10.3390/ijgi7100393
|
| [12] | World Geodetic System. Wikimedia.
https://en.wikipedia.org/wiki/World_Geodetic_System
|
| [13] | Earth-Centered, Earth-Fixed Coordinate System. Wikimedia.
https://en.wikipedia.org/wiki/Earth-centered,_Earth-fixed_coordinate_system
|
| [14] | Klokan Technologies. EPSG:4978.
https://epsg.io/4978
|
| [15] | Zhu, J. and Wu, P. (2021) A Common Approach to Geo-Referencing Building Models in Industry Foundation Classes for BIM/GIS Integration. ISPRS International Journal of Geo-Information, 10, Article No. 362.
https://doi.org/10.3390/ijgi10060362
|
| [16] | 3D Tiles Specification 1.0. Open Geospatial Consortium.
https://docs.opengeospatial.org/cs/18-053r2/18-053r2.html
|
| [17] | Cozzi, P. and Lilley, S. (2022) 3D Tiles Specification 1.1. Open Geospatial Consortium.
https://docs.ogc.org/cs/22-025r4/22-025r4.html
|
| [18] | Klokan Technologies. EPSG:1046.
https://epsg.io/1046-cs
|
| [19] | Local Tangent Plane Coordinates. Wikimedia.
https://en.wikipedia.org/wiki/Local_tangent_plane_coordinates
|
| [20] | Cesium Ion. Cesium GS, Inc.
https://cesium.com/platform/cesium-ion/
|
| [21] | FME. Safe Software Inc.
https://fme.safe.com/platform/
|
| [22] | Bently Context Capture. Bently Systems Inc.
https://www.bentley.com/software/contextcapture/
|
| [23] | Agisoft Metashape. Agisoft.
https://www.agisoft.com/downloads/installer/
|
| [24] | TerraExplorer for Desktop. Skyline Software Systems Inc.
https://www.skylinesoft.com/terraexplorer-for-desktop/
|
| [25] | LuciadFusion Studio.
https://dev.luciad.com/portal/productDocumentation/LuciadFusion/docs/articles/userguide/studio/UserGuide.html
|
| [26] | RealityCapture. CapturingReality.
https://www.capturingreality.com/
|
| [27] | Correlator3D. SimActive.
https://www.simactive.com/
|
| [28] | Awesome. Drone. Software. OpenDroneMap.
https://www.opendronemap.org/
|
| [29] | Shehata, O. (2020) Support Tiling Georeferenced 3D Models into 3D Tiles.
https://community.cesium.com/t/support-tiling-georeferenced-3d-models-into-3d-tiles/10524
|
| [30] | 3D Tiles Location Editor. Cesium GS, Inc.
https://cesium.com/learn/3d-tiling/ion-tile-set-location/
|
| [31] | OpenDroneMap. Obj2Tiles.
https://github.com/OpenDroneMap/Obj2Tiles
|
| [32] | PrincessGod. ObjTo3d-Tiles.
https://github.com/PrincessGod/objTo3d-tiles
|
| [33] | Oslandia. Py3dtiles.
https://github.com/Oslandia/py3dtiles
|
| [34] | VCityTeam. Py3dtilers.
https://github.com/VCityTeam/py3dtilers
|
| [35] | Fanvanzh. 3dtiles.
https://github.com/fanvanzh/3dtiles
|
| [36] | Kiselev-dv. Osm-Cesium-3D-Tiles.
https://github.com/kiselev-dv/osm-cesium-3d-tiles
|
| [37] | Arne, S., Jannes, B. and Claus, N. (2016) Using glTF for Streaming CityGML 3D City Models. Proceedings of the 21st International Conference on Web3D Technology, Anaheim, 22-24 July 2016, 109-116.
|
| [38] | KhronosGroup. CESIUM_RTC.
https://github.com/KhronosGroup/glTF/blob/main/extensions/1.0/Vendor/CESIUM_RTC/README.md
|
| [39] | Gan, L., Li, J. and Jing, N. (2017) Hybrid Organization and Visualization of the DSM Combined with 3D Building Model. Proceedings of the 2017 2nd International Conference on Image, Vision and Computing, Chengdu, 2-4 June 2017, 566-571.
https://doi.org/10.1109/ICIVC.2017.7984619
|
| [40] | Song, Z. and Li, J. (2018) A Dynamic Tiles Loading and Scheduling Strategy for Massive Oblique Photogrammetry Models. 2018 IEEE 3rd International Conference on Image, Vision and Computing (ICIVC), 27-29 June 2018, Chongqing, 648-652.
https://doi.org/10.1109/ICIVC.2018.8492731
|
| [41] | Visuri, H., Jokela, J., Mesterton, N., Latvala, P., and Aarnio, T. (2019) Producing and Visualizing a Country-Wide 3d Data Repository in Finland. The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Volume XLII-4/W15, 2019 14th 3D GeoInfo Conference, 24-27 September 2019, Singapore, 105-110.
https://doi.org/10.5194/isprs-archives-XLII-4-W15-105-2019
|
| [42] | Kolaric, S. and Shelden, D. (2019) DBL SmartCity: An Open-Source IoT Platform for Managing Large BIM and 3D Geo-Referenced Datasets. Proceedings of the 52nd Hawaii International Conference on System Sciences, Hawaii, 8-11 January 2019.
|
| [43] | Xu, Z., Zhang, L., Li, H., Lin, Y.-H. and Yin, S. (2020) Combining IFC and 3D Tiles to Create 3D Visualization for Building Information Modeling. Automation in Construction, 109, Article ID: 102995.
https://doi.org/10.1016/j.autcon.2019.102995
|
| [44] | Obj2gltf. Cesium GS, Inc.
https://github.com/CesiumGS/obj2gltf
|
| [45] | Lu, M., Wang, X., Liu, X., Chen, M., Bi, S., Zhang, Y. and Lao, T. (2021) Web-Based Real-Time Visualization of Large-Scale Weather Radar Data Using 3d Tiles. Transactions in GIS, 25, 25-43.
https://doi.org/10.1111/tgis.12638
https://onlinelibrary.wiley.com/doi/epdf/10.1111/tgis.12638
|
| [46] | Mao, B., Ban, Y. and Laumert, B. (2020) Dynamic Online 3D Visualization Framework for Real-Time Energy Simulation Based on 3D Tiles. ISPRS International Journal of Geo-Information, 9, Article No. 166.
https://doi.org/10.3390/ijgi9030166
|
| [47] | Li, Y., Zhang, H. and Zhang, Q. (2021) A Framework for Interactive Online 3D Visualization of Electric Information. Journal of Physics: Conference Series, 1757, Article ID: 012170.
https://doi.org/10.1088/1742-6596/1757/1/012170
|
| [48] | Jaillot, V., Servigne, S. and Gesquière, G. (2020) Delivering Time-Evolving 3D City Models for Web Visualization. International Journal of Geographical Information Science, 34, 2030-2052.
https://doi.org/10.1080/13658816.2020.1749637
|
| [49] | VCityTeam. UD-Viz.
https://github.com/VCityTeam/UD-Viz
|
| [50] | Zhan, W, Chen, Y. and Chen, J. (2021) 3D Tiles-Based High-Efficiency Visualization Method for Complex BIM Models on the Web. ISPRS International Journal of Geo-Information, 10, Article No. 476.
https://doi.org/10.3390/ijgi10070476
|
| [51] | Cesium3DTileset. Cesium GS, Inc.
https://cesium.com/learn/cesiumjs/ref-doc/Cesium3DTileset.html
|
| [52] | Transforms. Cesium GS, Inc.
https://cesium.com/learn/cesiumjs/ref-doc/Transforms.html
|
| [53] | Kabsch Algorithm. Wikimedia.
https://en.m.wikipedia.org/wiki/Kabsch_algorithm
|
| [54] | Cesium World Terrain. Cesium GS, Inc.
https://cesium.com/platform/cesium-ion/content/cesium-world-terrain/
|
| [55] | Singular Value Decomposition. Wikimedia.
https://en.wikipedia.org/wiki/Singular_value_decomposition
|
| [56] | Pix4D. PIX4Dmapper.
https://www.pix4d.com/product/pix4dmapper-photogrammetry-software
|
