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1.
飞行器大气再入过程中黑障缓解方法综述   总被引:1,自引:0,他引:1  
为了方便研究人员更好地掌握黑障的缓解方法及其研究现状,系统地介绍了目前航天领域中用于缓解黑障的多种技术方法。首先,简要介绍了黑障的成因以及研究现状,并阐述了电磁波在等离子体中的传播机理;其次,详细说明了14种黑障缓解方法的基本原理及其优缺点,这些方法包括改变空气动力学形状、引入正交电磁场、驻波检测法、提高入射频率以及太赫兹法等。随后,从功耗、尺寸质量、通信效果以及工程实用性等6个方面对每种方法进行了分类评估。最后,针对黑障问题后续的研究方向,提出了几点建议。  相似文献   

2.
为提高机器人的负载能力,基于几何分析和螺旋理论的基本原理,对绳驱动 拟人臂机器人的构型设计、钢绳传动方式和运动学控制问题进行了深入的分析.首先针对绳 驱动走线方式的多样性选择,设计了一种具有肘、腕关节耦合和肩、肘关节耦合的绳驱动传 动机构;然后以肩、肘、腕7-DOF关节为中间媒介对机器人末端和驱动钢绳间的运动学关系 进行了分析,即先考虑机器人末端位姿和各关节角度之间的关系,再研究各关节角度和其相 应的驱动钢绳绳长之间的关系,从而得到绳驱动机器人的运动学解;最后进行了仿真研究. 仿真结果显示机器人的关节角度和绳长变化曲线十分平滑,末端的实际轨迹跟踪理想轨迹的 误差非常微小,说明建议的算法正确,绳驱动机器人运行理想,可以有效克服常规机器 人自重过大带来的负面影响.  相似文献   

3.
针对新型航空发动机管路连接副,研究了其在安装过程和松动过程中的接触特性。首先,将连接副的安装-松动过程划分为3个阶段,并对这3个阶段的摩擦力和接触压力进行了解析推导,分析了摩擦力和接触压力的变化规律。然后,建立了管路连接副的轴对称有限元模型,并对其进行了非线性瞬态分析。最后,基于施加位移载荷的方法模拟了连接副的安装和松动过程,研究了接触面的滑移量、接触压力、摩擦力和接触压应力的变化规律。同时研究了不同预紧力对连接副接触压应力的影响。结果表明:松动过程在滑移点前后可以分为2个阶段,这2个阶段中接触面的接触特性有明显区别;连接副接触面的接触特性只与接触面参数和预紧力大小相关,与管径、材料等其他因素无关。本文研究的安装与松动过程中接触特性变化规律在工程上可以指导新型管路连接副的设计工作。  相似文献   

4.
由于小行星具有引力场不规则、物理参数不确定性大、表面逃逸速度小等因素,使得小行星附近制导和控制极具挑战性。回顾了小行星探测任务的历史、现状和意义;针对小行星附近制导与控制研究的基础即小行星附近动力学,分析了研究现状;针对悬停、绕飞、转移、着陆等任务形式,详细介绍了轨道制导和控制方法方面的热点问题和研究现状;基于研究现状,列举了部分未来可进一步研究的方向和问题。  相似文献   

5.
In this paper, a new method of temporal extrapolation of the ionosphere total electron content (TEC) is proposed. Using 3-layer wavelet neural networks (WNNs) and particle swarm optimization (PSO) training algorithm, TEC time series are modeled. The TEC temporal variations for next times are extrapolated with the help of training model. To evaluate the proposed model, observations of Tehran GNSS station (35.69°N, 51.33°E) from 2007 to 2018 are used. The efficiency of the proposed model has been evaluated in both low and high solar activity periods. All observations of the 2015 and 2018 have been removed from the training step to test the proposed model. On the other hand, observations of these 2 years are not used in network training. According to the F10.7, the 2015 has high solar activity and the 2018 has quiet conditions. The results of the proposed model are compared with the global ionosphere maps (GIMs) as a traditional ionosphere model, international reference ionosphere 2016 (IRI2016), Kriging and artificial neural network (ANN) models. The root mean square error (RMSE), bias, dVTEC = |VTECGPS ? VTECModel| and correlation coefficient are used to assess the accuracy of the proposed method. Also, for more accurate evaluation, a single-frequency precise point positioning (PPP) approach is used. According to the results of 2015, the maximum values of the RMSE for the WNN, ANN, Kriging, GIM and IRI2016 models are 5.49, 6.02, 6.34, 6.19 and 13.60 TECU, respectively. Also, the maximum values of the RMSE at 2018 for the WNN, ANN, Kriging, GIM and IRI2016 models are 2.47, 2.49, 2.50, 4.36 and 6.01 TECU, respectively. Comparing the results of the bias and correlation coefficient shows the higher accuracy of the proposed model in quiet and severe solar activity periods. The PPP analysis with the WNN model also shows an improvement of 1 to 12 mm in coordinate components. The results of the analyzes of this paper show that the WNN is a reliable, accurate and fast model for predicting the behavior of the ionosphere in different solar conditions.  相似文献   

6.
X射线脉冲星导航技术研究进展   总被引:12,自引:2,他引:10  
X射线脉冲星能够为近地轨道、深空和星际空间飞行航天器提供位置、速度、时间和姿态等丰富的导航信息,实现航天器高精度自主导航和运行管理,有着巨大的发展潜力.本文论述了X射线脉冲星导航技术研究历程;重点研究了X射线脉冲星导航的基本原理、信息处理流程和自主导航算法,进而提出了脉冲星导航的关键技术;分析了国内脉冲星观测研究的基础条件,以及开展X射线脉冲星导航技术研究的必要性和可行性.  相似文献   

7.
介绍一种新型光信号眼图校准模块的设计方法,给出了眼图测量的参数、眼图校准模块设计原理和试验装置的选择思路,充分考虑了可调谐激光器的出光功率、偏振方向、光调制启、微波放大器引入的误差以及被测设备自身的抖动、时基误差等因素,通过开展上升时间测试和抖动测试,分析了光接收机的带宽、抖动对标准眼图的影响,最后给出了试验结果,分析光信号的眼高度、眼宽度、消光比、光调制幅度、抖动与码速率、码长度、误码率参数的关系。  相似文献   

8.
高光谱遥感是当前遥感领域发展的前沿。首先介绍了高光谱遥感的成像原理、典型成像方式及主要特点等基础理论,之后从机载和星载两个方面,系统梳理了美国、加拿大、欧洲、日本等主要国家高光谱遥感载荷的发展现状,分析了相关载荷的主要性能指标(以空间分辨率、频谱分辨率等为代表),总结、归纳了高光谱遥感在民用商用、国防安全及行星探测三个领域中的应用情况,最后从提升分辨率、优化探测模式及实现小型化三个方面,总结了高光谱遥感载荷的发展趋势。  相似文献   

9.
Geoscience Australia contributed a multi-satellite, multi-year weekly time series to the International DORIS Service combined submission for the construction of International Terrestrial Reference Frame 2008 (ITRF2008). This contributing solution was extended to a study of the capability of DORIS to dynamically estimate the variation in the geocentre location. Two solutions, comprising different constraint configurations of the tracking network, were undertaken. The respective DORIS satellite orbit solutions (SPOT-2, SPOT-4, SPOT-5 and Envisat) were verified and validated by comparison with those produced at the Goddard Space Flight Center (GSFC), DORIS Analysis Centre, for computational consistency and standards. In addition, in the case of Envisat, the trajectories from the GA determined SLR and DORIS orbits were compared. The results for weekly dynamic geocentre estimates from the two constraint configurations were benchmarked against the geometric geocentre estimates from the IDS-2 combined solution. This established that DORIS is capable of determining the dynamic geocentre variation by estimating the degree one spherical harmonic coefficients of the Earth’s gravity potential. It was established that constrained configurations produced similar results for the geocentre location and consequently similar annual amplitudes. For the minimally constrained configuration Greenbelt–Kitab, the mean of the uncertainties of the geocentre location were 2.3, 2.3 and 7.6 mm and RMS of the mean uncertainties were 1.9, 1.2 and 3.5 mm for the X, Y and Z components, respectively. For GA_IDS-2_Datum constrained configuration, the mean of the uncertainties of the geocentre location were 1.7, 1.7 and 6.2 mm and RMS of the mean uncertainties were 0.9, 0.7 and 2.9 mm for the X, Y and Z components, respectively. The mean of the differences of the two DORIS dynamic geocentre solutions with respect to the IDS-2 combination were 1.6, 4.0 and 5.1 mm with an RMS of the mean 21.2, 14.0 and 31.5 mm for the Greenbelt–Kitab configuration and 4.1, 3.9 and 4.3 mm with an RMS 8.1, 9.0 and 28.6 mm for the GA_IDS-2_Datum constraint configuration. The annual amplitudes for each component were estimated to be 5.3, 10.8 and 11.0 mm for the Greenbelt–Kitab configuration and 5.3, 9.3 and 9.4 mm for the GA_IDS-2_Datum constraint configuration. The two DORIS determined dynamic geocentre solutions were compared to the SLR determined dynamic solution (which was determined from the same process of the GA contribution to the ITRF2008 ILRS combination) gave mean differences of 3.3, −4.7 and 2.5 mm with an RMS of 20.7, 17.5 and 28.0 mm for the X, Y and Z components, respectively for the Greenbelt–Kitab configuration and 1.1, −5.4 and 4.4 mm with an RMS of 9.7, 13.3 and 24.9 mm for the GA_IDS-2_Datum configuration. The larger variability is reflected in the respective amplitudes. As a comparison, the annual amplitudes of the SLR determined dynamic geocentre are 0.9, 1.0 and 6.8 mm in the X, Y and Z components. The results from this study indicate that there is potential to achieve precise dynamically determined geocentre from DORIS.  相似文献   

10.
In this paper, Science Operations Planning Expertise (SOPE) is defined as the expertise that is held by people who have the two following qualities. First they have both theoretical and practical experience in operations planning, in general, and in space science operations planning in particular. Second, they can be used, on request and at least, to provide with advice the teams that design and implement science operations systems in order to optimise the performance and productivity of the mission. However, the relevance and use of such SOPE early on during the Mission Design Phase (MDP) is not sufficiently recognised. As a result, science operations planning is often neglected or poorly assessed during the mission definition phases. This can result in mission architectures that are not optimum in terms of cost and scientific returns, particularly for missions that require a significant amount of science operations planning. Consequently, science operations planning difficulties and cost underestimations are often realised only when it is too late to design and implement the most appropriate solutions. In addition, higher costs can potentially reduce both the number of new missions and the chances of existing ones to be extended. Moreover, the quality, and subsequently efficiency, of SOPE can vary greatly. This is why we also believe that the best possible type of SOPE requires a structure similar to the ones of existing bodies of expertise dedicated to the data processing such as the International Planetary Data Alliance (IPDA), the Space Physics Archive Search and Extract (SPASE) or the Planetary Data System (PDS). Indeed, this is the only way of efficiently identifying science operations planning issues and their solutions as well as of keeping track of them in order to apply them to new missions. Therefore, this paper advocates for the need to allocate resources in order to both optimise the use of SOPE early on during the MDP and to perform, at least, a feasibility study of such a more structured SOPE.  相似文献   

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