利用CUDA的剪切波数据三维可视化
A New Continuous Time and Frequency Transfer Algorithm Based on GPS Single Different Carrier Phase Observations
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摘要: 提出了一种基于CUDA的并行体绘制技术,将CPU与GPU进行协同工作,将光线投射这一高度并行的过程交由GPU来处理,同时设计了相应的体绘制数据访存优化策略来提高穿并行加速比。实验证明本方法可以将串行绘制速度提升三十倍。通过中国大陆南北带地区的剪切波数据三维可视化实验结果,可以直观看出低温物体的下沉俯冲带的分布。从三维图像可以看出,由于俯冲带的拖曳作用,使得软流圈的物质存在着向上流动的趋势,该高温物质在上升的过程中,使研究区两侧受到热物质的侵蚀而产生拉张作用,在一定程度上导致了该两侧的构造较为活跃,形成了类似断层、裂谷等拉张构造。相对于传统的显示方法,剪切波速度三维可视化更加高效、直观地展示了太平洋俯冲板块对南北带地区和华北克拉通动力学构造的影响,在地球物理学研究中得到良好的应用。Abstract: The characteristics of GPS Common View(GPS CV) and GPS Carrier Phase time transfer(GPS CP) methods are introduced,and a new continuous time and frequency transfer algorithm based on GPS single Different Carrier Phase observations is proposed.The new algorithm uses an ionosphere-free combination of single but different observations from the same satellite and the processing steps are also consistent with simple traditional GPS CP.But,the Bayesian estimation of prior information is proposed to smo... More