井地电磁发送机嵌入式人机交互软件设计     

《地球物理学进展》2016,(5)

为了有效的进行井地电法勘探,本设计以ARM7系列的LPC2368为主控芯片,配合LCM12864液晶显示屏和4*4阵列式键盘,用C程序设计语言进行了井地电磁发送机嵌入式人机交互软件程序设计,以实现实时更改发送参数,实时监测并调整发送机状态,从而提高勘探精度和效率的目的.针对井地电法勘探中的实际需求,要求电磁发送机人机交互软件能够实现包括修改发送频率、改变发送模式、GPS对钟、显示当前时间及电池电量等功能.经室内及野外实验证明,人机交互软件编程思路新颖,程序运行稳定可靠,能够满足井地电法勘探过程中对发送机的需求,具有一定的借鉴和参考价值.  相似文献   

MCSEM发射电流波形的高精度时间标识技术     

《地球物理学进展》2015,(4)

加紧研究和发展海洋可控源电磁法(MCSEM)对我国海域能源资源的调查具有重要意义.在MCSEM勘探中,发射机记录的电流波形若没有精确时间标记,则无法与接收机采集到的数据进行同步处理,进而影响到感应电磁场相位信息的提取.本文对海底环境下发射电路所面临的这一亟需解决的特殊问题展开了研究.采用硬件同步分频和超长计数的时间标识技术,基于LPC2368微处理器、GPS对钟电路、高精度温度补偿晶振、CPLD、RTC模块、USB移动硬盘、霍尔电流传感器及其外围电路等搭建的新硬件平台,将高精度时间标记脉冲计数值连同发射电流波形数据一同记录至存储设备中,同时上传至甲板端,便于上位机对水下发射机进行远程监控.最后依托国家专项进行了海洋试验,验证了高精度时间标识技术的可靠性和准确性.  相似文献   

A comparative study on the illite crystallinity and the clay mineral reflectance spectral index for subdividing the very low-grade metamorphic belt along the Lizhou-Hekou geological section in the Youjiang sedimentary basin, Guangxi, China     

YAN Shouxun Laboratory of Remote Sensing Information Sciences  Institute of Remote Sensing Applications  Chinese Academy of Sciences  Beijing  China 《中国科学D辑(英文版)》2004,47(9)

To examine the application potential of hyperspectral remote sensing techniques in classifying very low-grade metamorphic belts, the composition of clay minerals and the cyrstallinity of illite from mudstones were measured using XRD and VIS-SWIR (400-2500 nm) reflectance spectroscopy. Based on the illite cyrstallinity, Kubler Index (KI), the Early Triassic LuoLou Group and the Middle Triassic lower Baifeng Formation were classified as the lower Epizone with KI△2θ° ranging from 0.22 to 0.25, the upper Baifeng Formation as upper anchizone with KI△2θ°ranging from 0.26 to 0.33, and the Hekou Formation as lower anchizone with KI△2θ° ranging from 0.38 to 0.40. According to a KI△2θ° value of 0.43, it is possible that there may exist a local diagenetic zone in the upper strata. The illite cyrstallinity Kubler index and the metamorphic grade increase from the bottom to the top of the stratigraphic sequence. The metamorphic grade boundaries nearly match the stratigraphic boundaries, indicating a burial metamorphism nature for the stratigraphic sequence. From the bottom to the top of the sequence, the spectral absorption band center of clay minerals from fresh rocks is around 2200 nm. The absorption band centers change towards shorter wavelengths: the Luolou Group being at 2220 nm, the Baifeng Formation at 2217-2213 nm, the lower member of the Hekou Formation at 2214-2206 nm, and the upper member of the Hekou Formation at 2205-2197 nm. The spectral absorption band center of illite shows the same change pattern. These results indicate that very low-grade metamorphic belts can be subdivided using spectral indices of clay minerals, which are measured by using field portable spectroradiometers. However, it may not work well with satellite and airborne sensors.  相似文献