先进深海探测设备的科学可视化和水下自动操纵

Boxiong Yang , Lin Gan , Shelei Li , Bo Zhou , Tingting Yang , Xiaofei Liu , Chun Xiong , Jiaxue Zou
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引用次数: 0

摘要

科学可视化在现代技术活动和工程探索中具有重要意义。由于深海的黑暗和高压特性,很难将深海设备的整个操作可视化。因此,利用虚拟仿真技术帮助人们了解一些深海探测设备在海底的操作过程是非常必要的。本文通过艺术渲染、视觉处理以及虚拟现实和全息术技术,将科学、艺术和新媒体相结合,使最新的深海着陆器和名为“鲁陵”的智能潜水器的探索看起来更直观、更智能,更有视觉冲击力和表达力。除此之外,“绿岭”号拍摄到的火星车机器人在深海中的自动操纵视频被有效嵌套,以实现虚拟和真实呈现的目标。设计的深海设备科学可视化不仅可以适应VR、手机、电视、360°showcase等平台的显示输出,还可以通过HTC Vive VR设备实现身临其境的体验和虚拟仿真学习。本文提出的科学可视化技术和设计方法具有通用性,适用于同类工程仿真。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Scientific visualization for advanced deep-sea exploration equipment and underwater automatic manipulation

Scientific visualization is important in modern technological activities and engineering exploration. Due to the dark and high-pressure characteristics of deep sea, it is difficult to visualize the entire operation of deep-sea equipment. Thus, it is of great necessity to use virtual simulation technology to help people understand the operation process of some deep-sea exploration equipment on the sea floor. In this paper, science, art, and new media are combined through artistic rendering, visual processing, and the technology of virtual reality (VR) and holography, which makes the exploration of the latest deep-sea lander and intelligent submersible named “Luling” look more intuitive and smart and have more visual impact and expression. Apart from that, automatic manipulation videos of the rover robot in the deep sea captured by the Luling are effectively nested to realize the goal of virtual and real presentation. The designed scientific visualization of deep-sea equipment can not only adapt to the display output of VR, mobile phones, TV, 360° showcase, and other platforms, but also achieve immersive experience and virtual simulation learning through HTC Vive VR equipment. The technology and design way of scientific visualization in this paper is universal and suitable to the same kind of engineering simulation.

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CiteScore
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