Your search keyword '"scene optimization"' showing total 3 results

1. Tunnel vision optimization method for VR flood scenes based on Gaussian blur

Author

Lin Fu, Jun Zhu, Weilian Li, Qing Zhu, Bingli Xu, Yakun Xie, Yunhao Zhang, Ya Hu, Jingtao Lu, Pei Dang, and Jigang You

Subjects

flood disaster, virtual reality, gaussian blur, tunnel vision, scene optimization, Mathematical geography. Cartography, GA1-1776

Abstract

The visualization of flood disasters in virtual reality (VR) scenes is useful for the representation and sharing of disaster knowledge and can effectively improve users’ cognitive efficiency in comprehending disaster information. However, the existing VR methods of visualizing flood disaster scenes have some shortcomings, such as low rendering efficiency and poor user experience. In this paper, a tunnel vision optimization method for VR flood scenes based on Gaussian blur is proposed. The key techniques are studied, such as region of interest (ROI) calculation and tunnel vision optimization considering the characteristics of the human visual system. A prototype system has been developed and used to carry out an experimental case analysis. The experimental results show that the number of triangles drawn in a flood VR scene is reduced by approximately 30%–40% using this method and that the average frame rate is stable at approximately 90 frames per second (fps), significantly improving the efficiency of scene rendering and reducing motion sickness.

Published

2021

2. Tunnel vision optimization method for VR flood scenes based on Gaussian blur.

Author

Fu, Lin, Zhu, Jun, Li, Weilian, Zhu, Qing, Xu, Bingli, Xie, Yakun, Zhang, Yunhao, Hu, Ya, Lu, Jingtao, Dang, Pei, and You, Jigang

Subjects

*FLOOD warning systems, *MOTION sickness, *TUNNEL design & construction, *FLOODS, *VIRTUAL reality, *USER experience

Abstract

The visualization of flood disasters in virtual reality (VR) scenes is useful for the representation and sharing of disaster knowledge and can effectively improve users' cognitive efficiency in comprehending disaster information. However, the existing VR methods of visualizing flood disaster scenes have some shortcomings, such as low rendering efficiency and poor user experience. In this paper, a tunnel vision optimization method for VR flood scenes based on Gaussian blur is proposed. The key techniques are studied, such as region of interest (ROI) calculation and tunnel vision optimization considering the characteristics of the human visual system. A prototype system has been developed and used to carry out an experimental case analysis. The experimental results show that the number of triangles drawn in a flood VR scene is reduced by approximately 30%–40% using this method and that the average frame rate is stable at approximately 90 frames per second (fps), significantly improving the efficiency of scene rendering and reducing motion sickness. [ABSTRACT FROM AUTHOR]

Published

2021

3. A Construction Optimization and Interaction Method for Flood Disaster Scenes Based on Mobile VR

Author

HU Ya, ZHU Jun, LI Weilian, ZHANG Yunhao, HU Mingyuan, and CAO Zhenyu

Subjects

ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, virtual geographic environments, interactive exploration, mobile VR, scene optimization, lcsh:Mathematical geography. Cartography, lcsh:GA1-1776, ComputingMethodologies_COMPUTERGRAPHICS, flood disaster

Abstract

The existing three-dimensional (3D) visualization of flood disaster scenes has problems such as weak immersion and lack of mobility.This paper combines mobile virtual reality (VR) with 3D visualization of flood disaster scenes,and proposes a construction optimization and interaction method for flood disaster scenes based on mobile VR.Firstly,a mobile VR scene construction scheme under a plugin-free B/S architecture is proposed.Second,certain key technologies for scene optimization are discussed,including diverse modes of scene data organization,optimization control of scene data volume and adaptive scheduling of mobile scenes.Finally,some interaction and analysis schemes based on gaze,such as scene roaming exploration and interactive flood information query,are designed.A test platform was developed and a case experiment analysis was carried out.The experiment results demonstrate that the flood disaster scene constructed by the methods addressed in this paper can be displayed smoothly and explored interactively on smart phones.

Published

2018