Multi-Modal Interface for a Real-Time CFD Solver

2006 IEEE International Workshop on Haptic Audio Visual Environments and their Applications (HAVE 2006) Pub Date : 1900-01-01 DOI:10.1109/HAVE.2006.283800

M. Kasakevich, P. Boulanger, W. Bischof, M. García

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引用次数: 2

Abstract

Advances in computer processing power and networking over the past few years have brought significant changes to the modeling and simulation of complex phenomena. Problems that formerly could only be tackled in batch mode, with their results visualized afterwards, can now be monitored whilst in progress using graphical means. In certain cases, it is even possible to alter parameters of the computation whilst it is running, depending on what the scientist perceives in the current visual output. This ability to monitor and change parameters of the computational process at any time and from anywhere is called computational steering. Combining this capability with advanced multi-modal tools to explore the data produced by these systems are key to our approach. In this paper, we present an advanced multi-modal interface where sonification and 3D visualization are used in a computational steering environment specialized to solve real-time Computational Fluid Dynamics (CFD) problems. More specifically, this paper describes how sonification of CFD data can be used to augment 3D visualization.

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实时CFD求解器的多模态接口

在过去几年中，计算机处理能力和网络的进步给复杂现象的建模和模拟带来了重大变化。以前只能在批处理模式下解决的问题，其结果随后可视化，现在可以使用图形手段在进行过程中进行监控。在某些情况下，甚至可以根据科学家在当前视觉输出中感知到的情况，在运行时改变计算的参数。这种随时随地监控和改变计算过程参数的能力被称为计算导向。将这种能力与先进的多模态工具相结合，探索这些系统产生的数据是我们方法的关键。在本文中，我们提出了一种先进的多模态界面，其中在计算转向环境中使用了超声和3D可视化，专门用于解决实时计算流体动力学(CFD)问题。更具体地说，本文描述了如何利用CFD数据的声化来增强三维可视化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2006 IEEE International Workshop on Haptic Audio Visual Environments and their Applications (HAVE 2006)

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