Shading atlas streaming demonstration

Jörg Müller; Thomas Neff; Philip Voglreiter; Mina Mlakar; Markus Steinberger; Dieter Schmalstieg

doi:10.1145/3305367.3327981

Shading atlas streaming demonstration

Jörg Müller, Thomas Neff, Philip Voglreiter, Mina Mlakar, Markus Steinberger, Dieter Schmalstieg

Institute of Computer Graphics and Vision (7100)

Research output: Chapter in Book/Report/Conference proceeding › Conference paper › peer-review

Abstract

Streaming high quality rendering for virtual reality applications requires minimizing perceived latency. Shading Atlas Streaming (SAS)[Mueller et al. 2018] is a novel object-space rendering framework suitable for streaming virtual reality content. SAS decouples server-side shading from client-side rendering, allowing the client to perform framerate upsampling and latency compensation autonomously for short periods of time. The shading information created by the server in object space is temporally coherent and can be efficiently compressed using standard MPEG encoding. SAS compares favorably to previous methods for remote image-based rendering in terms of image quality and network bandwidth efficiency. SAS allows highly efficient parallel allocation in a virtualized-texture-like memory hierarchy, solving a common efficiency problem of object-space shading. With SAS, untethered virtual reality headsets can …

Original language	English
Title of host publication	ACM SIGGRAPH 2019 Emerging Technologies
Publisher	Association of Computing Machinery
ISBN (Print)	978-1-4503-6308-2
DOIs	https://doi.org/10.1145/3305367.3327981
Publication status	Published - 2019
Event	ACM SIGGRAPH 2019 - Los Angeles, Los Angeles, United States Duration: 28 Jul 2019 → 1 Aug 2019

Conference

Conference	ACM SIGGRAPH 2019
Country/Territory	United States
City	Los Angeles
Period	28/07/19 → 1/08/19

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10.1145/3305367.3327981

Cite this

@inproceedings{0efaf34004734356a715bf4d57c3b713,

title = "Shading atlas streaming demonstration",

abstract = "Streaming high quality rendering for virtual reality applications requires minimizing perceived latency. Shading Atlas Streaming (SAS)[Mueller et al. 2018] is a novel object-space rendering framework suitable for streaming virtual reality content. SAS decouples server-side shading from client-side rendering, allowing the client to perform framerate upsampling and latency compensation autonomously for short periods of time. The shading information created by the server in object space is temporally coherent and can be efficiently compressed using standard MPEG encoding. SAS compares favorably to previous methods for remote image-based rendering in terms of image quality and network bandwidth efficiency. SAS allows highly efficient parallel allocation in a virtualized-texture-like memory hierarchy, solving a common efficiency problem of object-space shading. With SAS, untethered virtual reality headsets can …",

author = "J{\"o}rg M{\"u}ller and Thomas Neff and Philip Voglreiter and Mina Mlakar and Markus Steinberger and Dieter Schmalstieg",

year = "2019",

doi = "10.1145/3305367.3327981",

language = "English",

isbn = "978-1-4503-6308-2",

booktitle = "ACM SIGGRAPH 2019 Emerging Technologies",

publisher = "Association of Computing Machinery",

address = "United States",

note = "ACM SIGGRAPH 2019 ; Conference date: 28-07-2019 Through 01-08-2019",

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TY - GEN

T1 - Shading atlas streaming demonstration

AU - Müller, Jörg

AU - Neff, Thomas

AU - Voglreiter, Philip

AU - Mlakar, Mina

AU - Steinberger, Markus

AU - Schmalstieg, Dieter

PY - 2019

Y1 - 2019

N2 - Streaming high quality rendering for virtual reality applications requires minimizing perceived latency. Shading Atlas Streaming (SAS)[Mueller et al. 2018] is a novel object-space rendering framework suitable for streaming virtual reality content. SAS decouples server-side shading from client-side rendering, allowing the client to perform framerate upsampling and latency compensation autonomously for short periods of time. The shading information created by the server in object space is temporally coherent and can be efficiently compressed using standard MPEG encoding. SAS compares favorably to previous methods for remote image-based rendering in terms of image quality and network bandwidth efficiency. SAS allows highly efficient parallel allocation in a virtualized-texture-like memory hierarchy, solving a common efficiency problem of object-space shading. With SAS, untethered virtual reality headsets can …

AB - Streaming high quality rendering for virtual reality applications requires minimizing perceived latency. Shading Atlas Streaming (SAS)[Mueller et al. 2018] is a novel object-space rendering framework suitable for streaming virtual reality content. SAS decouples server-side shading from client-side rendering, allowing the client to perform framerate upsampling and latency compensation autonomously for short periods of time. The shading information created by the server in object space is temporally coherent and can be efficiently compressed using standard MPEG encoding. SAS compares favorably to previous methods for remote image-based rendering in terms of image quality and network bandwidth efficiency. SAS allows highly efficient parallel allocation in a virtualized-texture-like memory hierarchy, solving a common efficiency problem of object-space shading. With SAS, untethered virtual reality headsets can …

U2 - 10.1145/3305367.3327981

DO - 10.1145/3305367.3327981

M3 - Conference paper

SN - 978-1-4503-6308-2

BT - ACM SIGGRAPH 2019 Emerging Technologies

PB - Association of Computing Machinery

T2 - ACM SIGGRAPH 2019

Y2 - 28 July 2019 through 1 August 2019

ER -

Shading atlas streaming demonstration

Abstract

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