面向室内场景的惯性磁感应定位方法

针对卫星拒止的室内导航问题,在现有磁信标定位技术的基础上,通过分析低频旋转磁场的特点,建立了一种不受传感器姿态和磁信标磁矩信息影响的磁感应矢量夹角观测模型,并结合MEMS惯性导航的误差模型提出了一种以磁感应矢量夹角的正余弦值为量测信息的惯性磁感应动态定位方法,避免了磁传感器姿态误差和磁矩误差对定位结果的影响。利用实验室的双轴磁信标实验系统进行静态测试,验证了磁感应定位模型具有不受传感器姿态、环境中遮挡物以及磁矩影响的特点;通过数值仿真的方式对基于无迹卡尔曼滤波(UKF)的惯性磁感应定位方法进行验证,结果表明该方法能有效地抑制惯性导航的发散,且位置最大误差小于0.75 m,满足大多数室内场景下的高精度导航定位需求。     

真空环境下行波型超声波电机的特性

真空环境下由于缺少空气介质,靠摩擦驱动的超声波电机的特性会与常态 下发生较大的变化。采用行波型超声波电机常用的三种摩擦材料（环氧树脂、聚四氟乙 烯烧结和生聚四氟乙烯填充为基的摩擦材料）对比分析了常态和真空环境下的超声波电机的 机械特性。发现除环氧胶外,其他摩擦材料制成的电机真空下的堵转力矩都有所增大,而空 载转速全部降低。为了分析变化产生的原因,实验比较了真空环境下三种摩擦材料在常规、 驻波和行波状态下的动摩擦系数,实验表明除环氧胶外其它摩擦材料的摩擦系数比常态下都 略有增大,且相应电机的堵转力矩也都增大。其次实验研究了行波型超声波电机的瞬态特性 ,当真空度增加到10 -2 Pa后,电机的起动时间和起动电压都有明显的增加,即电 机起动和运行的阻力逐步增大,导致电机空载转速的降低。最后测试了声悬浮力大小,其数 值不超过预紧力的1％,不是真空环境下特性变化的主因。导致电机真空环境下堵转力 矩和空载转速发生变化的主要原因在于摩擦材料动态摩擦系数和起动与运行阻力的变化。     

Analytical-HZETRN model for rapid assessment of active magnetic radiation shielding

The use of active radiation shielding designs has the potential to reduce the radiation exposure received by astronauts on deep-space missions at a significantly lower mass penalty than designs utilizing only passive shielding. Unfortunately, the determination of the radiation exposure inside these shielded environments often involves lengthy and computationally intensive Monte Carlo analysis. In order to evaluate the large trade space of design parameters associated with a magnetic radiation shield design, an analytical model was developed for the determination of flux inside a solenoid magnetic field due to the Galactic Cosmic Radiation (GCR) radiation environment. This analytical model was then coupled with NASA’s radiation transport code, HZETRN, to account for the effects of passive/structural shielding mass. The resulting model can rapidly obtain results for a given configuration and can therefore be used to analyze an entire trade space of potential variables in less time than is required for even a single Monte Carlo run. Analyzing this trade space for a solenoid magnetic shield design indicates that active shield bending powers greater than ∼15 Tm and passive/structural shielding thicknesses greater than 40 g/cm² have a limited impact on reducing dose equivalent values. Also, it is shown that higher magnetic field strengths are more effective than thicker magnetic fields at reducing dose equivalent.     

Upper limit of the total magnetic flux in an active region according to the photometric-magnetic dynamical model

The photometric-magnetic dynamical model handles the evolution of an individual sunspot as an autonomous nonlinear, though integrable, dynamical system. One of its consequences is the prediction of an upper limit of the sunspot areas. This upper limit is analytically expressed by the model parameters, while its calculated value is verified by the observational data. In addition, an upper limit for the magnetic strength inside the sunspot is also predicted, and then, we obtain the following significant result: The upper limit of the total magnetic flux in an active region is found to be of about 7.23 × 10²³ Mx, namely, phenomenologically equal to the magnetic flux concentrated in the totality of the granules of the quiet Sun, having a typical maximum magnetic strength of about 12G. Therefore, the magnetic flux concentrated in an active region cannot exceed the magnetic flux concentrated in the photosphere as a whole.     

1994年2月21日行星际激波引起的磁暴

利用Imp-8,Geotail和Goes-6等卫星资料,研究了1994年2月21日0900UT到达地球磁层的行星际激波引起的磁暴期间,从太阳风向磁层传输能量的有关问题.结果指出:（1）南向行星际磁场（IMF）的长持续时间不是太阳风向磁层输能的必要条件.南北振荡的,较强IMF也能产生显著的能量传输;（2）行星际扰动磁场通过弓激波和磁层顶后扰动磁能增加,增幅将近5倍;（3）在磁层内扰动磁场的Bz分量在1×10-4Hz附近显著被吸收.这一低频扰动磁场可能是磁暴期间导致氧离子和质子等环电流粒子向内扩散并被加速的原因之一.     

Eruptive prominences as sources of magnetic clouds in the solar wind

Large amounts of coronal material are propelled outward into interplanetary space by Coronal Mass Ejections (CMEs). Thus one might expect to find evidence for expanding flux ropes in the solar wind as well. To prove this assumption magnetic clouds were analyzed and correlated with H-observations of disappearing filaments. When clouds were found to be directly associated with a disappearing filament, the magnetic structure of the cloud was compared with that of the associated filament. Additionally the expansion of magnetic clouds was examined over a wide range of the heliosphere and compared with the expansion observed for erupting prominences.     

基于磁场映像的印制电路板故障诊断方法研究

简要分析了印制电路板的电磁场,提出了用电磁感应法测量磁场的电咱故障诊断新方法,并给出了测试系统组成方案。最后通过验证实验证明了该方法是确实可行的。     

航天运载器磁悬浮助推发射关键技术

以航天运输为背景,研究了磁悬浮助推发射的磁悬浮、直线电机、空气动力影响和运载器分离发射等关键技术问题.通过磁悬浮系统比较,确定高温超导体EDS(Electrodynamic Suspension)系统是适合的磁悬浮技术方案,在单元静、动态实验测试基础上,研究其基本静态悬浮导向性能和刚度、阻尼特性,并建立缩比研究试验平台以评估磁悬浮系统的综合性能.通过分析2种直线电机类型及优缺点,确定双边感应直线电机是适合磁悬浮发射系统的一种直线电机加速方式,并确定脉冲磁流体发电的能量供给方案.通过磁悬浮发射空气动力影响分析,优化设计磁悬浮发射装置气动外形和气动布局,得出其基本气动特性,并提出利于实现系统俯仰力矩平衡的气动翼控制方案.研究了运载器同时滑离导轨式定向器分离发射方案,并通过动静法计算分析得出运载器从定向器滑轨上成功分离所需具备的基本动力学参数.      

电磁监测试验卫星矢量磁场探测方法

电磁监测试验卫星是中国第一颗近地轨道电磁场科学探测试验卫星, 探测空间背景磁场是其重要任务之一. 空间背景磁场探测需要在卫星平台上对空间矢量磁场进行长期稳定准确探测, 电磁监测试验卫星采用磁通门磁强计和基于CPT效应的绝对磁场校准装置(Coupled Dark State Magnetometer, CDSM)分别探测空间相对矢量磁场以及绝对标量磁场, 通过数据处理, 使最终的矢量磁场探测数据具有准确性. 这种数据处理方法在理想模型下拥有解析解, 实施过程中载荷的噪声、 准确度及稳定性影响模型的准确性, 会产生数据校准误差. 通过对在轨磁场探测的模拟确定了这种数据处理方法的性能, 验证了在载荷设计性能的基础上电磁监测试验卫星的磁场探测可以实现1 nT的准确度.     

适用于无轴承开关磁阻电机的功率变换器设计

 无轴承开关磁阻电机不仅具有开关磁阻电机的优点,而且拓宽了无轴承技术的应用范围。而功率变换器是无轴承开关磁阻电机的重要组成部分,其向电机绕组提供电流,以产生所需转矩和悬浮力,对电机旋转和悬浮性能有重要影响。根据无轴承开关磁阻电机电磁转矩和悬浮力控制原理,详细分析了其对功率变换器的要求,提出了主绕组功率变换器和悬浮绕组功率变换器的设计原则,并分析了其各种工作模式和数学模型。最后通过对实验样机的调试,给出了实验结果,实现了无轴承开关磁阻电机的稳定悬浮。