在相对论虚拟环境中模拟动态时间膨胀

A. S. Lokman, N. A. Ghani, L. L. Leong
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引用次数: 1

摘要

本文评述了几种狭义相对论的模拟应用,提出了一种动态模拟时间膨胀效应的方法。据作者所知,其他研究人员尚未对此进行过研究。本文所讨论的动态是指在实时交互仿真中,基于用户/观看者可控制的特定参数持续模拟时间膨胀效应的能力。该参数为运动观测器的加减速速度值。在相对论环境下,改变速度的值也会改变洛伦兹因子的值,从而直接影响到时间膨胀值。人们可以简单地用时间膨胀方程计算膨胀时间,但是如果速度不是恒定的(从暗示狭义相对论),人们必须考虑位移/距离和时间的变化值反复计算膨胀时间。本文通过对时间膨胀方程的解析,讨论了所提出的方法,并将其与现有的计算方法相联系,以便在相对论性虚拟环境中动态计算并最终模拟时间膨胀效应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Simulating Dynamic Time Dilation in Relativistic Virtual Environment
This paper critically reviews several Special Relativity simulation applications and proposes a method to dynamically simulate Time Dilation effect. To the authors’ knowledge, this has not yet been studied by other researchers. Dynamic in the context of this paper is defined by the ability to persistently simulate Time Dilation effect based on specific parameter that can be controlled by user/viewer in real-time interactive simulation. Said parameter is the value of speed from acceleration and deceleration of moving observer. In relativistic environment, changing the speed’s value will also change the Lorentz Factor value thus directly affect the Time Dilation value. One can simply calculate the dilated time by using Time Dilation equation, however if the velocity is not constant (from implying Special Relativity), one must repeatedly calculate the dilated time considering the changing value of displacement/distance and time. This paper discusses the proposed method by dissecting Time Dilation equation and relates it to computational method available nowadays in order to dynamically calculate and ultimately simulate Time Dilation effect in relativistic virtual environment.
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