SergeyMakeev / volsample

Research on sampling methods for real-time volume rendering

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volsample

MIT-licensed volume rendering research framework.

Teaser
Teaser video here.

Draft slides describing latest approach here.

Shadertoy volume rendering demo: Mt3GWs
Shadertoy sampling diagram: ll3GWs

Contacts: Huw Bowles (@hdb1 , huw dot bowles at gmail dot com), Daniel Zimmermann (daniel dot zimmermann at studiogobo dot com), Beibei Wang (bebei dot wang at gmail dot com)

Retweet to support this work: https://twitter.com/hdb1/status/769615284672028672

Introduction

Volume rendering in real-time applications is expensive, and sample counts are typically low. When the camera is inside the volume, the volume samples typically move around with the camera which can cause severe aliasing. This repository provides a new, fast, efficient and simple algorithm for eliminating aliasing for this camera-in-volume case.

This repos started as the source code for the course titled A Novel Sampling Algorithm for Fast and Stable Real-Time Volume Rendering, in the Advances in Real-Time Rendering in Games course at SIGGRAPH 2015 [1]. The full presentation PPT is available for download from the course page here. While this is useful reading, the latest implementation takes a new approach which completely replaces most of the approaches introduced in the talk.

The latest approach, Structured Sampling, works differently. See the Algorithm section below.

Running

This is implemented as a Unity 5 project (last run on 5.6) and should "just work" without requiring any set up steps. It should be very easily ported to other Unity versions as well.

Find the current test scenes in the Scenes/ folder. A few volume sampling schemes are implemented for comparison and can be selected via the on screen GUI.

All volume sampling methods and volumetric scenes are implemented into VolumeRender.shader, as shader features. This is a quick and dirty way to associate shader code with unity scenes, and at the same time support different volume sampling approaches, without requiring a ton of shader code duplication.

Algorithm

Draft slides describing latest approach here.

For further understanding it may help to enable the define DEBUG_BEVEL and play with the Bevel amount on the Platonic Solid Blend script. Doing a GPU trace capture in unity can also be helpful to see the dodecahedron.

We hope to publish a full description of this technique soon. Stay tuned!

Bugs and improvement directions

  • The adaptive sampling method published here should be compatible with the new approach and could be reinstated.

References

[1] Bowles H. and Zimmermann D., A Novel Sampling Algorithm for Fast and Stable Real-Time Volume Rendering, Advances in Real-Time Rendering in Games course, SIGGRAPH 2015. Course page.

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Research on sampling methods for real-time volume rendering

License:MIT License


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