论文部分内容阅读
针对地震勘探算法的特点和制约技术推广的问题,在地震数据处理流程、输入与输出数据格式、图形显示和插件模式集成技术等方面进行了深入研究,研发了插件模式模块集成技术.将不同编程语言实现的地震勘探算法,通过插件模式进行算法模块集成,设计形成有效的功能技术模块,并保证软件模块的可重用性和稳定性,有效解决了地震勘探算法的成果转化和产业化问题.以地震数据采集工程软件平台提供的插件服务为基础,形成了面向地震勘探算法的插件集成思路和模块集成技术,并以可控震源正演模拟与谐波压制技术为例,验证了算法集成的正确性和有效性,最终实现了不同编程语言地震勘探算法的模块集成和应用,有效保障了可控震源高效采集的顺利实施.
According to the characteristics of the seismic exploration algorithm and the problems that restrict the technology popularization, this paper deeply studies the seismic data processing flow, the input and output data format, the graphic display and the plug-in mode integration technology, and develops the plug-in mode module integration technology. Language implementation of the seismic exploration algorithm, the module is integrated through the plug-in model algorithm, the formation of an effective functional technology module design, and to ensure the reusability of software modules and stability, the effective solution to the seismic exploration algorithm transformation and industrialization problems. Based on the plug-in service provided by the seismic data acquisition engineering software platform, a plug-in integrated idea and module integration technology for seismic exploration algorithm are formed. Taking the simulation of forward vibrator and harmonic suppression technology as an example, the algorithm integration is verified to be correct Sex and effectiveness, and finally realize the module integration and application of seismic exploration algorithms in different programming languages, which effectively ensures the smooth implementation of high-efficiency seismic acquisition.