1)lightning location system闪电定位系统
1.A new-type lightning location system is established with the optoelectronic inspection technology.提出了加权定位和向量定位两种新的定位算法,均能够应用于光电法闪电定位系统,实现闪电定位计算。
2.Based on the principle of lightning location systems and analysis method of error, comparison was made that the locating errors of lightning detecting net in different component ways by using the software including functions as selecting automatically stations and calculation.以闪电定位系统的定位原理和误差分析方法为基础 ,利用系统布设客观分析软件的自动选站和误差计算功能 ,比较了以不同方式组成的闪电监测网在一定范围内的定位误差。
3.Supported by the Natural Science Foundation of Jiangsu Province (KLME050101) in 2005, the Cloud to Ground lightning flash (CG) data from Lightning Location System (LLS) in Jiangsu Province has been analyzed to find out the rule of regional CG flashes.在江苏省气象灾害重点实验室重点项目(KLME050101)的支持下,本研究利用江苏省气象局新建成的闪电定位系统,首先对发生在全省境内的地闪资料进行了统计分析,在此基础上,利用神经网络方法对雷暴的发生做了模拟预报研究,并进一步提出了基于该方法的闪电预报系统模型。
英文短句/例句
1.The application of lightning detection and location system in disaster prevention and reduction闪电定位系统在防灾减灾中的应用分析
2.Lightning Monitoring with Doppler Weather Radar and Lightning Location Systems SAFIR 3000 and ADTD;基于多普勒天气雷达和SAFIR 3000与ADTD闪电定位系统的雷电监测
3.Contrast Analysis of the Observations between Two lightning location Systems in Jieyang City两套闪电定位系统对揭阳市雷电监测结果的对比分析
4.Error Analysis of the Lightning Location System Based on Cloud-lightning基于云闪的雷电定位系统的误差分析
5.Analysis of Location Accuracy of Cloud-Flash in a Lightning Location System by Figure Factor雷电定位系统云闪定位精度图形因素分析
6.Ligtning Monitoring System Design Based on Multi-Sites Tdoa Location with Multi-Forms Subsystems Fusion基于多形态分区子系统融合时差定位法闪电监测系统设计
7.Analysis of Correlation Between Cloud-to-ground Flash Density Map Using LLS and Lightning Flashover雷电定位系统地闪密度分布图与雷击故障相关性分析
8.Analysis of Ionospheric Scintillation Effects on GNSS Positioning电离层闪烁对全球导航卫星系统(GNSS)的定位影响分析
9.surface-based radiopositioning system地基无线电定位系统
10.electronic emitter location system电子发射器定位系统
11.radio hyperbolic navigation system无线电双曲线定位系统
12.Characteristics of Three-Dimensional Lightning and Radar Echo Using the Broadband Field Lightning Mapping System闪电宽带电场三维定位及其回波特征
13.Hail clouds identification and localization using lightning and thunder signals利用闪电信号进行雹云的识别和定位
14.Preliminary Analysis of Lightning Location System in Hubei Power Network湖北电网雷电定位系统数据初步分析
15.Quantification of Flicker ERG and VEP in Normal individuals正常人闪烁光视网膜电图和闪烁光视诱发电位的定量分析
16.Analysis on GPS-based Pole Positioning Technology基于全球定位系统的电杆定位技术分析
17.Information on thunderstorms as detected by a lightning location system is also available to forecasters.闪电位置显示系统则用以监测雷暴的位置,为天气预报员提供最新资料。
18.Fault Diagnosis for Hydraulic System of Furnace Electrode;闪速炉贫化电极液压系统的故障诊断
相关短句/例句
lightning detection system闪电定位系统
1.For the realization of remote communication between detection stations and central processing system of SAFIR 3000 lightning detection system in Wuhan,a cable/wireless hybrid distance communication network structure is applied.为实现武汉SAFIR3000闪电定位系统探测子站与中心站通信连接,设计了有线/无线混合远程通信组网,并采用多线程等软件技术设计实现GPRS无线通信程序。
3)lightning location system(LLS)闪电定位系统(LLS)
4)lightning location detecting system测定闪电位置系统
5)Lightning location闪电定位
1.This research is based on the data of the Doppler weather radar and thelightning location systems (SAFIR3000, ADTD) in Wuhan neighborhood.本研究基于武汉新一代多普勒天气雷达与SAFIR 3000、ADTD闪电定位系统的探测资料,并结合汉口站地面、高空资料,对2005年10月-2006年9月发生在武汉及周边地区闪电资料进行综合分析,得出以下主要结论:(1)武汉地区Z(云、地闪数之比)平均值南部高于北部,Z值日变化峰值在05:00~06:00、谷底在19:00~20:00,Z值变化与下垫面对雷暴强度影响有关。
2.This paper discussed about two lightning disasters that occurred on June 25th in rural;it was analyzed by using lightning location systems and other advanced equipment.笔者由6月25日发生在农村的两起雷电灾害谈起,利用闪电定位系统等先进设备进行灾害分析,指出了农村雷电灾害的多发原因,提出了相关解决方案。
3.Using the conventional data,lightning location data and Doppler radar data,we analyze the lightning severe convective weather in Kaifeng on August 13,2008.利用常规资料及闪电定位资料、多普勒雷达资料,分析了2008年8月13日开封市雷电强对流天气过程,结果表明:这次强对流天气发生在高空低槽东移、开封受584 dgpm线控制的有利天气背景下,闪电发生在切变线和中β辐合线附近,闪电与逆风区、强回波及回波顶高有很好的对应关系。
6)the lightning location闪电定位
1.This research is based on the data of the lightning location system and the 714CD Doppler radar in Henan province.本研究基于河南省闪电定位系统和郑州714CD多普勒天气雷达探测资料,对2002~2003年发生在郑州周边地区(500km范围内)的地闪资料进行了综合分析,得出了以下几点结论: (1) 郑州周边地区闪电具有明显的时空分布不均特征:绝大多数闪电发生在7月和8月,早晨6:00~7:00和下午16:00~17:00是一天当中最容易发生的两个时段,而17时左右是闪电活动频次的日均最高值;太行山东麓、位于河南北部有一条明显的呈东北-西南向的闪电多发地带。
延伸阅读
什么是全球定位系统系统?
