Abstract

In this paper, the color correction method developed for immersive video systems is presented. The proposed method significantly increases the consistency of color characteristics of multiview sequences, understood both as the temporal and the inter-view consistency, what highly improves the subjective quality of the synthesized virtual views presented to the final user of the immersive video system. Moreover, the proposal allows to significantly increase the quality of the depth maps calculated for natural sequences, e.g., for views with colors inconsistent due to different lighting conditions. It enables more efficient compression of natural multiview video, as the newest encoding standards highly depend on the quality of depth maps. In order to evaluate the performance of the proposal, three experiments were conducted. In the first one, the proposal was compared to state of the art in the typical immersive video application – color correction of a natural multiview sequence. In the second experiment, the performance of the proposal was tested on the Middlebury stereo dataset. In both experiments, the quality of synthesized virtual views was assessed subjectively by a group of 70 naive viewers. The third experiment assessed the influence of color correction on the quality of estimated depth maps. All the experiments showed that the proposal significantly increases the color consistency of the multiview content. Due to the high usefulness and robustness, the proposed color correction method became the MPEG reference software for color correction. The implementation of the method is available for other researchers on the public repository.

Highlights

  • Immersive video [26], [4], [40] gains growing importance because of its expanding applications in virtual reality, virtual navigation, and ultra-realistic audiovisual content presentations

  • The paper describes the effective method of color correction for immersive video applications

  • The proposal improves the consistency of color characteristics of multiview video in real time, focusing on correction of both temporal and inter-view consistencies, what makes is it useful for immersive video applications

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Summary

Introduction

Immersive video [26], [4], [40] gains growing importance because of its expanding applications in virtual reality, virtual navigation, and ultra-realistic audiovisual content presentations. The immersive video is an extension of 360◦ video, where the user is limited to only 3 degrees of freedom (change of orientation). The viewer to freely control his or her position and orientation of viewing of the video content using typical monoscopic display [53] or head-mounted display (HMD) devices [4]. Immersive video may be related to both natural and computer-generated content. We focus on the natural content that originates from video cameras, both perspective (producing 2D rectangular video) and omnidirectional (producing up to 360-degree video) possibly augmented by data from depth cameras [23].

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