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The US RLV program aims to stimulate commercial development of a next-generation heavy-lift launcher and lower launch costs by one order of magnitude from the Space Shuttle. This paper discusses the incentives needed to encourage private investment — income tax relief, investment mitigation, financing assistance — in the venture and uses a specifically developed case study model to evaluate their effectiveness. It finds that an R&D tax credit would be the most practical incentive. Directions for future work are provided. 相似文献
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Michael Shaw 《Acta Astronautica》2004,54(11-12):943
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Florence Birol Fabien Léger Marcello Passaro Anny Cazenave Fernando Niño Francisco M. Calafat Andrew Shaw Jean-François Legeais Yvan Gouzenes Christian Schwatke Jérôme Benveniste 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2021,67(8):2398-2415
In the context of the ESA Climate Change Initiative project, a new coastal sea level altimetry product has been developed in order to support advances in coastal sea level variability studies. Measurements from Jason-1,2&3 missions have been retracked with the Adaptive Leading Edge Subwaveform (ALES) Retracker and then ingested in the X-TRACK software with the best possible set of altimetry corrections. These two coastal altimetry processing approaches, previously successfully validated and applied to coastal sea level research, are combined here for the first time in order to derive a 16-year-long (June 2002 to May 2018), high-resolution (20-Hz), along-track sea level dataset in six regions: Northeast Atlantic, Mediterranean Sea, West Africa, North Indian Ocean, Southeast Asia and Australia. The study demonstrates that this new coastal sea level product called X-TRACK/ALES is able to extend the spatial coverage of sea level altimetry data ~3.5 km in the land direction, when compared to the X-TRACK 1-Hz dataset. We also observe a large improvement in coastal sea level data availability from Jason-1 to Jason-3, with data at 3.6 km, 1.9 km and 0.9 km to the coast on average, for Jason-1, Jason-2 and Jason-3, respectively. When combining measurements from Jason-1 to Jason-3, we reach a distance of 1.2–4 km to the coast. When compared to tide gauge data, the accuracy of the new altimetry near-shore sea level estimations also improves. In terms of correlations with a large set of independent tide gauge observations selected in the six regions, we obtain an average value of 0.77. We also show that it is now possible to derive from the X-TRACK/ALES product an estimation of the ocean current variability up to 5 km to the coast. This new altimetry dataset, freely available, will provide a valuable contribution of altimetry in coastal marine research community. 相似文献
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Results of experiments are reported on the burning of individual decane droplets, initially between 1.0 and 1.2 mm in dia, in air at room temperature and atmospheric pressure. Use was made of the 2.2 s drop tower at the NASA Lewis Research Center and a newly designed droplet-combustion apparatus that promotes nearly spherically symmetrical combustion. Unanticipated disruptions were encountered and related to sooting behavior. 相似文献
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D. A. Gurnett W. S. Kurth R. R. Shaw A. Roux R. Gendrin C. F. Kennel F. L. Scarf S. D. Shawhan 《Space Science Reviews》1992,60(1-4):341-355
The purpose of the Galileo plasma wave investigation is to study plasma waves and radio emissions in the magnetosphere of Jupiter. The plasma wave instrument uses an electric dipole antenna to detect electric fields, and two search coil magnetic antennas to detect magnetic fields. The frequency range covered is 5 Hz to 5.6 MHz for electric fields and 5 Hz to 160 kHz for magnetic fields. Low time-resolution survey spectrums are provided by three on-board spectrum analyzers. In the normal mode of operation the frequency resolution is about 10%, and the time resolution for a complete set of electric and magnetic field measurements is 37.33 s. High time-resolution spectrums are provided by a wideband receiver. The wideband receiver provides waveform measurements over bandwidths of 1, 10, and 80 kHz. These measurements can be either transmitted to the ground in real time, or stored on the spacecraft tape recorder. On the ground the waveforms are Fourier transformed and displayed as frequency-time spectrogams. Compared to previous measurements at Jupiter this instrument has several new capabilities. These new capabilities include (1) both electric and magnetic field measurements to distinguish electrostatic and electromagnetic waves, (2) direction finding measurements to determine source locations, and (3) increased bandwidth for the wideband measurements.Deceased 相似文献
6.
Dean A.J. Bird A.J. Diallo N. Ferguson C. Lockley J.J. Shaw S.E. Westmore M.J. Willis D.R. 《Space Science Reviews》2003,105(1-2):285-376
Gamma ray photons interact with matter through a wide variety of complex physical mechanisms, which can be readily imitated
by other particle processes. Unfortunately since γ-ray telescopes are obliged to function in a hostile radiation environment
above the earth's atmosphere the net result is low signal to noise observations and a corresponding loss in sensitivity. Consequently,
understanding the generation of the systematic background noise is crucial if the full performance of a γ-ray instrument is
to be realised. In the past it was not possible to reliably estimate the background levels in a fully quantitative manner;
semi-empirical methods were employed. Although the basic underlying sources of the background noise were reasonably well understood,
and the spectral intensities of the associated particles were reasonably well known, it was not possible to associate resultant
noise components with the input source of that noise with any real degree of accuracy. The advent of sophisticated and accurate
computer programmes capable of dependably representing the requisite particle physics processes and interactions coupled with
the advances made in the context of high power/low cost computers has revolutionised the situation. The so-called ‘mass modelling’
technique is a truly physics-based approach, which takes the input particle spectra of the local radiation environment together
with a computer representation of the mechanical structure and chemical composition of the instrumentation and associated
spacecraft to trace the trajectories and interactions of all the incident particles throughout the system. All energy deposits
from the various interactions and likewise those from the prompt and delayed secondary products are also accurately recorded.
Subsequent energy discriminators and time coincidences can be applied to the event arrays with additional software to simulate
on-board electronics systems. Internal spectral counting rates may be readily derived and analysed in terms of a wide variety
of desired purposes. The impact of an accurate physics-based mass modelling technique has been to expand application of the
procedure to effectively all the main aspects of a space γ-ray astronomy mission: instrument design; internal counting rates
and spectral sensitivity estimates; optimisation of the design of the on-board processing electronics; operational planning
and mission optimisation; estimation of radiation damage and its limitation; calibration planning and interpretation; the
production of accurate instrumental response matrices; data analysis software; normalisation of astronomical results across
instrument and instrumental degradation boundaries; and data archiving.
This revised version was published online in June 2006 with corrections to the Cover Date. 相似文献
7.
Efficient target tracking using dynamic programming 总被引:3,自引:0,他引:3
Arnold J. Shaw S.W. Pasternack H. 《IEEE transactions on aerospace and electronic systems》1993,29(1):44-56
A dynamic programming (DP) algorithm has been developed for the detection and tracking of subpixel-sized, low signal-to-noise ratio (SNR) targets observed by side-or forward-looking imaging sensors. A distinguishing feature of this approach is that target detection and tracking are combined into a single optimization procedure that takes into account statistical models of target motion, background noise, and clutter. Current work has led to a number of technical innovations that improve the performance and efficiency of the DP tracking algorithm, including the development of a new track scoring function, and an extension to the basic DP algorithm that reduces computation requirements by over an order of magnitude. A prototype infrared (IR) target tracking system incorporating these enhancements has been implemented for a step-starting IR camera application. Sensitivity improvements of several decibels over conventional sequential detection and tracking algorithms were realized 相似文献
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The Lunar Orbiter Laser Altimeter Investigation on the Lunar Reconnaissance Orbiter Mission 总被引:3,自引:0,他引:3
David E. Smith Maria T. Zuber Glenn B. Jackson John F. Cavanaugh Gregory A. Neumann Haris Riris Xiaoli Sun Ronald S. Zellar Craig Coltharp Joseph Connelly Richard B. Katz Igor Kleyner Peter Liiva Adam Matuszeski Erwan M. Mazarico Jan F. McGarry Anne-Marie Novo-Gradac Melanie N. Ott Carlton Peters Luis A. Ramos-Izquierdo Lawrence Ramsey David D. Rowlands Stephen Schmidt V. Stanley Scott III George B. Shaw James C. Smith Joseph-Paul Swinski Mark H. Torrence Glenn Unger Anthony W. Yu Thomas W. Zagwodzki 《Space Science Reviews》2010,150(1-4):209-241
The Lunar Orbiter Laser Altimeter (LOLA) is an instrument on the payload of NASA’s Lunar Reconnaissance Orbiter spacecraft (LRO) (Chin et al., in Space Sci. Rev. 129:391–419, 2007). The instrument is designed to measure the shape of the Moon by measuring precisely the range from the spacecraft to the lunar surface, and incorporating precision orbit determination of LRO, referencing surface ranges to the Moon’s center of mass. LOLA has 5 beams and operates at 28 Hz, with a nominal accuracy of 10 cm. Its primary objective is to produce a global geodetic grid for the Moon to which all other observations can be precisely referenced. 相似文献
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