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71.
原子钟钟差预报在原子时计算和原子钟频率驾驭中发挥着重要的作用。长短时记忆神经网络(LSTM)预报算法能够处理多参数长期依赖关系的时间序列预报,以氢钟和铯钟实测数据为样本,通过构建LSTM钟差预报模型,降低了长期原子钟内部噪声以及原子钟漂移对钟差预报的影响,并以72h,240h和720h为预报时长,分别与线性多项式模型、灰色模型和Kalman模型原子钟钟差预报模型进行预报误差对比。研究表明,在240h以上的预报时长中,LSTM建模长期依赖关系的优势得以体现,相较于其他3类模型可以获得更高的预报精度。 相似文献
72.
“风云二号”(FY-2)云图成像基准是由精太阳脉冲、南地中信号或北地中信号组成,相应的模拟遥测值反映了它们之间的相对变化关系,选择不同的云图成像基准,模拟遥测值对应变化;对于相同的云图成像基准,地面测试与卫星在轨运行时,与模拟遥测值的对应变化关系是一致的。本文就这些关联的变化关系进行具体的分析,提供了计算方法,并给出了实用的计算结果。 相似文献
73.
74.
成像光谱技术超谱图像分类研究现状与分析 总被引:13,自引:0,他引:13
超谱遥感图像由于其高光谱分辨率的特点正受到国外内的广泛关注,在解决了前期的辐射校正及定标等剖以及,超谱图像的推广应用是当务之急。超谱遥感图像的分类研究对农作物生长状况的监测、矿物的识别、海洋水色分析以及其他方面的许多应用都是很有价值的。文章概述了国内外在成像光谱技术方面的发展,并首次以像元的构成成分的.纯像元和混合像元的角度对分类方法进行了论述,对超谱图像分类技术研究现状的归纳和分析,旨在寻找突破点,加强此领域的研究力度。 相似文献
75.
Paul Sava Erik Asphaug 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2018,61(8):2198-2213
Answering fundamental questions about the origin and evolution of small planetary bodies hinges on our ability to image their surface and interior structure in detail and at high resolution. The interior structure is not easily accessible without systematic imaging using, e.g., radar transmission and reflection data from multiple viewpoints, as in medical tomography. Radar tomography can be performed using methodology adapted from terrestrial exploration seismology. Our feasibility study primarily focuses on full wavefield methods that facilitate high quality imaging of small body interiors. We consider the case of a monostatic system (co-located transmitters and receivers) operated in various frequency bands between 5 and 15?MHz, from a spacecraft in slow polar orbit around a spinning comet nucleus. Using realistic numerical experiments, we demonstrate that wavefield techniques can generate high resolution tomograms of comets nuclei with arbitrary shape and complex interior properties. 相似文献
76.
E.J. Iles L. McCallum J.E.J. Lovell J.N. McCallum 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2018,61(3):962-973
As we move into the next era of geodetic VLBI, the scheduling process is one focus for improvement in terms of increased flexibility and the ability to react with changing conditions. A range of simulations were conducted to ascertain the impact of scheduling on geodetic results such as Earth Orientation Parameters (EOPs) and station coordinates. The potential capabilities of new automated scheduling modes were also simulated, using the so-called ‘dynamic scheduling’ technique. The primary aim was to improve efficiency for both cost and time without losing geodetic precision, particularly to maximise the uses of the Australian AuScope VLBI array.We show that short breaks in observation will not significantly degrade the results of a typical 24?h experiment, whereas simply shortening observing time degrades precision exponentially. We also confirm the new automated, dynamic scheduling mode is capable of producing the same standard of result as a traditional schedule, with close to real-time flexibility. Further, it is possible to use the dynamic scheduler to augment the 3 station Australian AuScope array and thereby attain EOPs of the current global precision with only intermittent contribution from 2 additional stations. We thus confirm automated, dynamic scheduling bears great potential for flexibility and automation in line with aims for future continuous VLBI operations. 相似文献
77.
T. Moreau E. Cadier F. Boy J. Aublanc P. Rieu M. Raynal S. Labroue P. Thibaut G. Dibarboure N. Picot L. Phalippou F. Demeestere F. Borde C. Mavrocordatos 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2021,67(6):1870-1886
This paper describes an innovative method for processing nadir altimeter data acquired in Synthetic Aperture Radar (SAR) mode, enhancing the system performances over open ocean. Similarly to the current SAR data processing scheme, the so-called LR-RMC (Low Resolution with Range Migration Correction) method, originally designed by Phalippou and Demeester (2011), includes Doppler beam forming, Doppler shift correction and range correction. In LR-RMC, however, an alternative and less complex averaging (stacking) operation is used so that all the Doppler beams produced in a radar cycle (4 bursts of 64 beams for the open-burst Sentinel-3-mode altimeter) are incoherently combined to form a multi-beam echo. In that manner, contrarily to the narrow-band SAR technique, the LR-RMC processing enlarges the effective footprint to average out the effects of surface waves and particularly those from small sub-mesoscale structures (<1 km) that are known to impact SAR-mode performances. On the other hand, the number of averaged beams is as high as in current SAR-mode processing, thus providing a noise reduction at least equally good. The LR-RMC method has the added benefit of reducing the incoherent integration time with respect to the SAR-mode processing (50 ms compared to 2.5 s) limiting possible surface movement effects. By processing one year of Sentinel-3A SRAL SAR-mode data using the LR-RMC method, it is shown that the swell impact on the SAR altimeter performances is totally removed and that an improvement of 10–50% is obtained in the measurement noise of the sea surface height and significant wave height with respect to SAR mode. Additionally, observational capabilities over the middle scales are enhanced potentially allowing the ocean mesoscale features to be retrieved and observations assimilated more usefully in ocean models. 相似文献
78.
G. Cremonese M. T. Capria V. Achilli F. Angrilli P. Baggio C. Barbieri J. Baumgardner N. Bistacchi F. Capaccioni A. Caporali I. Casanova S. De Bei G. Forlani S. Fornasier D. Hunten W. H. Ip M. Lazzarin I. Longhi L. Marinangeli F. Marzari M. Massironi P. Masson M. Mendillo B. Pain G. Preti R. Ragazzoni J. Raitala G. Salemi M. Sgavetti A. Sprague E. Suetta M. Tordi S. Verani J. K. Wilson L. Wilson 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2004,33(12):2182-2188
MEMORIS (MErcury Moderate Resolution Imaging System) is a wide angle camera (WAC) concept for the ESA mission BepiColombo. The main scientific objectives consist of observing the whole surface of Mercury in the spectral range of 400–1000 nm, with a spatial resolution of 50 m per pixel at peri-Herm (400 km) and 190 m at apo-Herm (1500 km). It will obtain a map of Mercury in stereo mode allowing the determination of a digital elevation model with a panchromatic filter through two different channels. The camera will also perform multispectral imaging of the surface with a set of 8–12 different broad band filters. A third channel dedicated to limb observations will provide images of the atmosphere. MEMORIS will thus monitor the surface and the atmosphere during the entire mission, providing a unique opportunity to study the relationship between surface regions and the atmosphere, as suggested by ground-based observations and theory. 相似文献
79.
天线组阵能否完全替代大口径天线有一个关键性难题,就是天线阵是否支持上行链路组阵。深空航天器无法将不同地面天线的上行信号对齐,所以上行链路信号的调整必须在地面完成。针对上行组阵发射机相位调整问题,提出一种基于VLBI(Very Long Baseline Interferometry,甚长基线干涉测量)技术的接收模式天线上行组阵标校方案,并对标校精度进行了简要分析。将上行链路时延分解为几何时延和发射系统时延,建立了几何时延模型,通过标定接收时延和发射时延,便可以得到天线阵元间的相位标校值。理论分析结果表明,该方案具有一定的可行性,对上行组阵相位标校的研究具有一定的借鉴意义。 相似文献
80.
Y. Saito D. AkitaH. Fuke N. Izutsu 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2010
The tandem balloon system has been known as a candidate system for long duration flight balloons. In this paper, the properties of the system are analytically studied in a new way by introducing an extendable suspension wire in the Sky Anchor configuration, which consists of a zero-pressure main balloon suspending a payload and a super-pressure balloon suspended below the payload. It was found that extension of the suspension wire between the payload and the super-pressure balloon can extend the capability of the tandem system; the altitude of the zero-pressure balloon can be changed without any consumables except some energy, and the day–night oscillation of the balloon altitude can be suppressed. This property is useful as the vehicle for long duration flights. It is also pointed out that the method to control the altitude of a balloon using an additional suspended super-pressure balloon can also be applied for super-pressure balloons. 相似文献