During the seismic wave propagation process, as for the anisotropic lower medium, the speed is a function of the propagating direction. This article focuses on solving the problem how to get the transmittance angle and speed, knowing the upper seismic wave propagation velocity and the angle of incidence conditions. The main theories used Snell law, Christoffel equation and speed characteristics. Taking the HTI medium as an example, the authors give the detailed solving process and draw the space velocity characteristic curve. 相似文献
Using Altera's Quartus Ⅱ, Nios Ⅱ IDE and Sopc Builder development tools, the proton precession magnetometer principle host hardware platform is designed in a cyclone Ⅱ series FPGA chip (EP2C35). The proton precession magnetometer principle host core circuit's single-chip system-logic design is achieved by building and configuring the Nios Ⅱ soft-core processor, developing the IO interface and sensor control circuits, programming some hardware units' VHDL code, for example the equal precision cymometer and the DPLL. Through researching the embedded operating system configuration technology and building the NIOS Ⅱ soft-core processor's μClinux cross-compile environment, the μClinux system is transplanted to the NIOS Ⅱ environment. Another important task is writing the device drivers' and user programs' code. Through these work, the design realize the host function and achieve the expected target.