结合大型地球物理数据处理软件系统GR ISYS的开发实践,讨论程序测试的若干方法及有关问题。
In this paper we discuss the program testing and some related issues in the development of the Geophysical Data Processing system (GRISYS).
由于计算机运行速度快、计算精确、数据容量庞大等等优点,它已成为地球物理数据处理领域不可缺少的工具。
For computer's merits such as: high running speed, accurate calculation, enormous data capacity and so on, it has become an absolutely necessarily tool in geophysics data processing fields.
不规则分布数据的网格化处理是地球物理数据处理和解释的基础问题,是保证许多地球物理数据处理方法得以成功实施的前提。
Gridding of irregular data is a basic problem in the processing and interpretation of geophysical data, and is also an indispensable means to assure the success of geophysical data processing methods.
关于卡尔曼滤波在应用地球物理领域的应用,目前还只限于地震数据处理中。
About the Kalman filtering in the applied geophysics domain's application, also is only restricted in at present the earthquake data processing.
通过数模转换、彩色编码、边缘锐化、透视显示、多元图象迭合等处理,获得常规物探数据处理方法难于获得的某些地球物理信息。
Some new geo-physical informations can be acquired by such as the digital analog conversion, color code, edge sharpening, perspective display and multivariableimage overlapping.
通过数模转换、彩色编码、边缘锐化、透视显示、多元图象迭合等处理,获得常规物探数据处理方法难于获得的某些地球物理信息。
Some new geo-physical informations can be acquired by such as the digital analog conversion, color code, edge sharpening, perspective display and multivariableimage overlapping.
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