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Towards retina-quality VR video streaming

Luke Hsiao, Brooke Krajancich, Philip Levis, Gordon Wetzstein, Keith Winstein

2022ACM SIGCOMM Computer Communication Review23 citationsDOI

Abstract

Virtual reality systems today cannot yet stream immersive, retina-quality virtual reality video over a network. One of the greatest challenges to this goal is the sheer data rates required to transmit retina-quality video frames at high resolutions and frame rates. Recent work has leveraged the decay of visual acuity in human perception in novel gaze-contingent video compression techniques. In this paper, we show that reducing the motion-to-photon latency of a system itself is a key method for improving the compression ratio of gaze-contingent compression. Our key finding is that a client and streaming server system with sub-15ms latency can achieve 5x better compression than traditional techniques while also using simpler software algorithms than previous work.

Topics & Concepts

Computer scienceGazeLatency (audio)Computer visionFrame rateKey (lock)Data compressionVirtual realityVideo qualityPerceptionLow latency (capital markets)Frame (networking)Artificial intelligenceReal-time computingComputer networkComputer securityTelecommunicationsBiologyOperations managementNeuroscienceEconomicsMetric (unit)Visual Attention and Saliency DetectionCCD and CMOS Imaging SensorsImage and Video Quality Assessment
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