Ionospheric anomalies of local earthquakes detected by GPS TEC measurements using data from Tashkent and Kitab stations

This paper reports the ionospheric anomalies observed during strong local earthquakes (M?5.0) which occurred mostly in and around Uzbekistan in seismically active zones, during years 2006 to 2009 within approximately 1000 km distance from the observing GPS stations located in Tashkent and Kitab, Uzbekistan. The solar and geomagnetic conditions were quiet during occurrence of the selected strong earthquakes. We produce Total Electron Content (TEC) time series over both sites and apply them to detect anomalous TEC signals preceding or accompanying the local earthquakes. The results show anomalous increase or decrease of TEC before or during the earthquakes. In general the anomalies occurred 1–7 days before the earthquakes as ionospheric electromagnetic precursors. To identify the anomalous values of TEC we calculated differential TEC (dTEC). dTEC is obtained by subtracting monthly averaged diurnal vTEC from the values of observed vTEC at each epoch. This procedure removes normal diurnal variations of vTEC. The present results are in good agreement with the previous observations on ionospheric earthquake precursors reported by various researchers.     

基于实验室定标和均匀景统计的相对辐射定标方法

提出了一种基于实验室定标和均匀景统计的定标方法,并应用于CBERS-02卫星遥感图像相对辐射校正。首先分析宽视场成像仪(Wide Field Imager,WFI)实验室基础定标系数;然后结合均匀景的定标方法,生成一组新的相对辐射定标系数;最后评价WFI图像相对辐射校正的效果。结果表明:文章提出的定标方法有效,可以较好地解决宽幅遥感图像辐射校正问题,同时为遥感卫星相对辐射校正提供了一种新的途径。     

Changes in total electron content (TEC) during the annular solar eclipse of 15 January 2010

The solar eclipse of 15 January 2010 was an annular eclipse of the Sun with a maximum magnitude of 0.96 at 1.62°N, 69.29°E. To study the effect of this solar eclipse on the ionosphere the GPS data recorded at three different Indian stations Varanasi (Geographic latitude 25°, 16′N, longitude 82°, 59′E), Hyderabad (Geographic latitude 17°, 20′N, longitude 78°, 30′E) and Bengaluru (Geographic latitude 12°, 58′N, longitude 77°, 33′E) have been used to retrieve ionospheric total electron content (TEC). The ionospheric response to this rare event has been studied in terms of GPS-derived TEC observed at all the three Indian stations. A significant reduction in TEC reflected by all PRNs at all the three stations has been observed. The magnitude of the reduction in VTEC compared to quiet mean VTEC depends on latitude as well as longitude. The amount of reduction observed from different satellites (PRN) is different and depends on the location of the satellite from the solar eclipse path.     

强磁干扰环境下磁航向误差补偿技术研究

解决强磁环境下磁强计易受干扰的问题,能够提高微型姿态参照系统航向角测量精度。建立了磁强计误差两次补偿模型,首先采用椭圆坐标修正法对磁强计进行罗差补偿,以减小环境磁场的干扰;其次采用最小二乘拟合法对获得的磁航向角进行二次补偿,提高系统航向角测量精度。试验结果显示：系统航向角测量值的误差均方值由补偿前的3．982°降为补偿后的0．386°,精度提高近10．3倍,表明该补偿方法能够有效降低磁场环境的干扰,提高系统航向角测量精度。     

The impact of large solar events on the total electron content of the ionosphere at mid latitudes

Ionospheric disturbances associated with solar activity may occur via two basic mechanisms. The first is related to the direct impact on the ionosphere of EUV photons from a flare, and the second by prompt electric field penetration into the magnetosphere during geomagnetic storms. In this paper we examine the possibility that these two mechanisms may have an impact at mid latitudes by calculating the total electron content (TEC) from GPS stations in Mexico during several large X-ray flares. We have found that indeed large, complex flares, which are well located, may affect the mid latitude ionosphere. In fact, in the solar events of July 14, 2000 and April 2001 storms, ionospheric disturbances were observed to increase up to 138 and 150 TECu, respectively, due to the influence of EUV photons. Also, during the solar events of July 2000, April 2001, Halloween 2003, January 2005 and December 2006, there are large ionospheric disturbances (up to 393 TECu in the Halloween Storms), due to prompt penetration electric field, associated with CME producing geomagnetic storm.     

在片功率参数校准方法研究

针对在片功率参数的校准需求,分析如何通过矢量方法修正由于微波探针和功率计引入的失配误差,并推导相关修正公式。同时对在片功率测量矢量修正中涉及的微波探针S参数提取方法做介绍,并将试验提取的S参数与微波探针的出厂数据比较。最后将在片功率参数测量的矢量修正数据分别与标量修正数据和未修正数据比较,结果表明,在40GHz内,运用矢量修正得到的在片功率参数测量结果准确度较未修正结果提高0.4dB,较标量修正结果提高0.1dB。     

IRI-2007预测TEC在广州地区的适用性分析

利用广州站(23.2°N, 113.3°E) GPS双频接收机监测的电离层TEC数据和IRI-2007模型不同电离层输入参数计算得到的TEC预测值, 对比分析了太阳活动低年(2008年)广州地区TEC的变化特征. 结果表明, TEC观测值周日变化在16:00LT左右达到最大值, 而IRI-TEC最大值出现时间较GPS-TEC提前1h左右. TEC季节变化在春秋分较高, 两至季节较低, 表现出明显的半年特性和季节依赖性, 并出现冬季异常现象. IRI-TEC与GPS-TEC在白天具有较好的一致性, 夜间偏差较大. 不同电离层输入参数得到的TEC预测值也相差较大, 选用顶部电子密度参数NeQuick、底部厚度参数B0 Table并用URSI系数计算F₂层峰值参数时, 能较好地反映TEC观测值的变化特征. 在对磁暴的响应上, 预测值无明显变化, 观测值则有比较明显的表现. 通过对比, 初步分析了利用IRI-2007模型预测TEC在广州地区的适用性, 并给出了合理的参数选择方案.      

基于显式制导的月地返回轨道中途修正研究

月地返回轨道存在各种摄动误差,终端约束复杂,有必要对其进行中途修正研究。显式制导法通过二体轨道与精确轨道之间的差别进行多次迭代求解给定时刻所需的修正速度。文章利用显式制导法,采用月球段及地球段分段进行中途修正的策略,给出了基于分段落点预报显式制导的月地返回轨道中途修正方案。该方案无需计算雅克比矩阵,算法简单、计算快速、实用性强,能满足再入点参数要求。算例仿真与蒙特卡洛仿真验证了该方案的适用性。     

利用多状态试车数据修正发动机部件特性

针对经典的航空发动机部件特性修正因子法的不足,提出一种于多状态试车数据的修正方法.利用发动机部件匹配模型方程以及试车参数计算值和实测值的差值组成目标方程组,采用改进的免疫粒子群算法优化求解获得部件特性修正系数.以多个不同状态下的修正系数为基础,利用滑动最小二乘方法拟合修正系数曲面,进而得到修正的部件特性图.数值试验表明:综合利用不同状态下发动机试车数据进行部件特性修正,克服了传统方法的不足.提高了修正部件特性在整个工作范围的精度.      

某运输机全机构型雷诺数效应阻力修正研究

采用CFD方法分析了雷诺数效应对某运输机全机构型阻力的影响。基于对某运输机的翼/身/架/舱组合体绕流进行的计算分析,归纳总结出了一种适应于复杂构型的低雷诺数到高雷诺数的阻力修正方法。通过验证可知,该修正方法修正效果良好,为工程中的阻力预测提供了一种简洁有效的方法。