Unity3DTiles is a Unity based implementation of the 3DTiles open format for streaming and rendering large static models such as those generated by photogrammetry pipelines. The benefit of the 3D Tiles specification is that it allows one generic rendering implementation to support datasets tiled using a number of different data structures such as binary, quad, or oct trees. It also supports sparse data representations so it can adapt well to datasets with variable detail density.

Reference information about the object model and tree traversal algorithm can be found here.

Please note that since initial development completed, the 3d-tiles specification has evolved. The tileset.json schema use is now modestly out of date and should be updated in the near future.

Tile Format Support

• Batched b3dm
• Instanced i3dm
• Point Cloud pnts - Implemented but untested
• Composite cmt

Tileset Feature Support

• Bounding Volumes
  • Sphere
  • Box
  • Region
• viewerRequestVolume
• Geometric Error - possible minor bugs in calculation
• Tile.Content
• Transforms - Basic support but does not handle parent/child transforms or runtime changes
• Add Refinement
• Replace Refinement
• Frustum culling
• Tree traversal
• Recursive tilesets

• Unity3DTiles depends on the C-Sharp-Promise Library whose DLL has been imbedded in the plugins directory of this project.
• This project utilizes an automatically generated schema to parse the 3D Tiles format. Instructions for updating this schema can be found here.
• This project also depends on UnityGLTF. To simplify usage and avoid compilation issues for different platforms, a version of the UnityGLTF package has been checked into the Assets/UnityGLTF folder so that users do not need to build it independently. Some minor modifications to the UnityGLTF package were necessary. The modifications as well as the procedure for updating the package can be found here.
• The Newtonsoft package from the Untiy Asset Store has been installed to support efficient deserialization of json.

This project contains several sample scenes.

• MainWeb - Loads a sample tileset with settings tuned for web
• MainHololens - Similar to MainWeb but tuned for HoloLens. Contains a few HoloLens specific configuration scripts
• Generic Web - Builds a generic web package that can ingest tilesets dynamically from URL parameters
• SampleModelLoader - Used to test loading different tile formats such as GLTF, GLTB, and B3DM

To import into your own project, simply copy the following folders

• Unity3DTiles
• UnityGLTF
• JsonDotNet
• Plugins
• Resources

To get started, simply add a TilesetBehaviour to an empty game object. You can configure the TilesetBehaviour renderer using the TilesetOptions object. The Url parameter is typically an HTTP url but in the examples we have added a script to convert a StreamingAsset relative path to a full path at runtime so that the example assets can be included along with the code.

• Url - The http address of the tileset json file you want to load. Tiles for this tileset should typically be located in the same folder as the json file
• Show - Disable / Enable rendering of tiles for this tileset. Does not disable loading or frustum culling.
• Maximum Tiles To Process - Loading large numbers of tiles per frame can decrease load times but introduce choppy performance (especially on the web) when many tiles are being loaded at once.
• Maximum Screen Space Error - Controls how much detail is rendered. Lower SSE results in more detail
• Skip Screen Space Error Multiplier - Used to avoid loading high level (low resolution) tiles. Increasing this results in more high level tiles being skipped when loading
• Load siblings - If a tile is in view and needs to be rendered, also load its siblings even if they are not visible. Especially useful when using colliders so that raycasts outside the users field of view can succeed. Increases load time and number of tiles that need to be stored in memory.
• Clipping cameras - the set of cameras that should be used to determine which tiles to load. Typically this will just be the main camera. Adding more cameras will decrease performance.
• Max Depth - can be used to limit how far down the tree tiles are rendered. Most useful for debugging.
• LRU Cache Max Size - Controls the total number of tiles that will be kept in memory at any given time. The cache can exceed this size if more tiles are need to render the current viewpoint. Setting this too low will mean tiles are constantly re-requested and impact performance when changing views. Setting this too high will result in more memory being used which can cause crashes on platforms such as the web or hololens.
• LRU Max Frame Unload Ratio - Controls the number of tiles that will be unloaded per frame when the cache becomes too full. Setting too high can cause choppy performance. Setting too low will slow the loading of new tiles as they will wait for old tiles to be unloaded.
• GLTF loader settings
  • Multithreaded - can increase performance but can also crash on some platforms that don't support multiple threads
  • GLTF maximum LOD - typically default is fine unless the tiles themselves specify LOD information
  • Shader override - If set to null UnityGLTF will use the StandardShader for GLTF assets. This can have traumatic performance impacts on HoloLens. This allows a different shader to be used when instantiation GLTF assets. Also see Unity3DTilesetStyle which provides a flexible way to change style properties such as shaders at runtime on a tile by tile basis.
• Debug Settings
  • Debug Draw Bounds - Draw tile bounds. Very slow

TilesetBehaviour also has configuration variables

• Max Concurrent Requests - Manages how many downloads can occurs simultaneously. Larger results in faster load times but this should be tuned for the particular platform you are deploying to.

A generic web build configuration is available which reads the tileset to load at runtime based on a URL parameter. Options may also be overridden by URL parameters.

Configure the Unity build for the WebGL platform and enable only the "Generic Web" scene

Click Build (or Build and Run if you want to test locally), and select the folder Unity3DTilesWeb for output.

The generic web build recognizes the following URL parameters:

• MaxConcurrentRequests - integer, overrides default value for max concurrent tile requests
• TilesetOptions - URL to JSON which is downloaded and overrides some or all of the tileset options
• TilesetURL - URL to tileset to view

All URL parameters are optional. By default no tileset is loaded. There are two ways to specify the tileset to load:

• the JSON referenced by the TilesetOptions parameter may include a Url value
• the TilesetURL parameter may be specified.

If both are present then TilesetURL takes precedence.

Example: http://uri.to/generic/web/deployment/index.html?TilesetURL=http%3A%2F%2Furi.to%2Ftileset.json&TilesetOptions=http%3A%2F%2Furi.to%2Foptions.json&MaxConcurrentRequests=100