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481.
针对空中加油机作战效能评估问题,构建了空中加油机作战效能评估指标体系,并对空中加油机的作战效能指标数据进行挖掘,利用信息熵概念求得各指标属性的重要度,并归一化处理为各效能指标的权重系数,克服了传统权重系数确定方法的主观性;然后,建立了基于理性解法的空中加油机作战效能多指标综合评价模型;最后,通过实例,对几种现役典型的空中加油机作战效能进行了评估,并得到了计算结果,同时验证了该模型的有效性。 相似文献
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Brandon A. Jones Alireza Doostan 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2013
This paper presents the application of polynomial chaos (PC) to estimating the probability of collision between two spacecraft. Common methods of quantifying this probability for conjunction assessment use either Monte Carlo analyses or include simplifying assumptions to improve tractability. A PC expansion, or PCE, provides a means for approximating the solution to a large set of stochastic ordinary differential equations, which includes orbit propagation. When compared to Monte Carlo methods, non-intrusive, i.e., sampling-based, PCE generation techniques may greatly reduce the number of orbit propagations required to approximate the possibly non-Gaussian, a posteriori probability density function. The presented PC-based method of computing collision probability requires no fundamental simplifying assumptions, and reduces the computation time compared to Monte Carlo. This paper considers two cases where the common conjunction assessment assumptions are no longer valid. The results indeed demonstrate a reduction in computation time when compared to Monte Carlo, and improved accuracy when compared to simplified techniques. 相似文献
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飞行器以高超声速飞行时瞬间温升可达1 600℃以上,为了保证飞行器的可靠和运行安全,准确实时测量热防护系统表面温度显得尤为重要。针对高温环境实时测温的技术难题,结合磁控溅射技术和陶瓷烧结技术,提出了一种引线和传感器基底一体化的微小型高温薄膜温度传感器结构。采用高温检定炉对传感器陶瓷基底的高温绝缘性进行了测试,并使用多种微观形貌表征方法对传感器主要结构材料进行筛选,得到薄膜温度传感器制备所需的最佳材料组合。进行了薄膜温度传感器静态标定和综合性能高温考核试验,结果表明,所研制传感器灵敏度、重复性的变化与标准热电偶基本保持一致,在实际环境温度低于1 500℃时,传感器测量误差不超过4‰,可在1 200℃高温环境中连续准确测温6 h以上,且测温上限高达1 800℃,验证了该传感器在高温环境中进行测温的可行性和实用性,为航天器表面温度测量和热防护系统优化提供科学依据。 相似文献
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Space Debris Reentry Analysis Methods and Tools 总被引:2,自引:2,他引:0
The reentry of uncontrolled spacecraft may be broken into many pieces of debris at an altitude in the range of 75-85 km. The surviving fragments could pose great hazard and risk to ground and people. In recent years, methods and tools for predicting and analyzing debris reentry and ground risk assessment have been studied and developed in National Aeronautics and Space Ad-ministration (NASA), European Space Agency (ESA) and other organizations, including the group of the present authors. This paper reviews the current progress on this topic of debris reentry briefly. We outline the Monte Carlo method for uncertainty analysis, breakup prediction, and parameters affecting survivability of debris. The existing analysis tools can be classified into two categories, i.e. the object-oriented and the spacecraft-oriented methods, the latter being more accurate than the first one. The past object-oriented tools include objects of only simple shapes. For more realistic simulation, here we present an object-oriented tool debris reentry and ablation prediction system (DRAPS) developed by the present authors, which introduces new object shapes to 15 types, as well as 51 predefined motions and relevant aerodynamic and aerothermal models. The aerodynamic and aerothermal models in DRAPS are validated using direct simulation Monte Carlo (DSMC) method. 相似文献
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