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由现代仪器采集的大量地球物理数据,在着手进行有意义地解释以前,必须有效地储存、处理和显示已日益明显了。为了满足这个要求,已经发展了人机联作的计算机系统,使地球物理学家可直接与计算机联系,而且还发展了在阴极射线管上进行地球物理数据的二维和三维显示的方法。重力、磁法、电阻率和激发极化法的特性曲线可在联作系统上进行模拟,用阴极射线管显示。联作模拟处理允许直接交换地球物理变量和交换其后有复算过的模型显示及相应理论特性的数据。模型参数可以用视觉进行监视并可连续调整以便取得更好的解答。此外,也可以产生表征航磁、重力、地形及相关数据的三维曲面的彩色晕渲透视。对于地震数据处理的滤波器合成和褶积来说,已经证明人机通讯可用来作程序指令和数据的修正。处理过的地震剖面用二维的、半色调图显示在阴极射线管屏上。
The vast amount of geophysical data collected by modern instruments has become increasingly apparent before it is time to interpret meaningfully, and must be effectively stored, processed and displayed. To meet this demand, computer systems for human-computer interaction have been developed that allow geophysicists to interface directly with computers and have also developed methods for two-dimensional and three-dimensional display of geophysical data on cathode ray tubes. Gravitational, magnetic, resistivity and polarization curves can be modeled on a co-operating system and displayed with a cathode ray tube. Cooperative simulation allows for the exchange of geophysical variables directly and the exchange of data followed by re-calculated model displays and corresponding theoretical properties. Model parameters can be visually monitored and continuously adjusted for better answers. In addition, it is also possible to create a color shading rendering of three-dimensional surfaces that characterize aeromagnetic, gravity, topography, and related data. For filter synthesis and convolution of seismic data processing, it has been demonstrated that human-machine communication can be used to correct program instructions and data. The processed seismic section is displayed on the cathode ray tube screen in a two-dimensional, half-toned view.