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Predicting engine parameters using the optical spectrum of the space shuttle main engine exhaust plume

机译：使用航天飞机主机废气羽流的光谱预测发动机参数

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The Optical Plume Anomaly Detection (OPAD) system is under development to predict engine anomalies and engine parameters of the Space Shuttle's Main Engine (SSME). The anomaly detection is based on abnormal metal concentrations in the optical spectrum of the rocket plume. Such abnormalities could be indicative of engine corrosion or other malfunctions. Here, we focus on the second task of the OPAD system, namely the prediction of engine parameters such as rated power level (RPL) and mixture ratio (MR). Because of the high dimensionality of the spectrum, we developed a linear algorithm to resolve the optical spectrum of the exhaust plume into a number of separate components, each with a different physical interpretation.

机译：正在开发光羽异常检测（OPAD）系统，以预测航天飞机主机（SSME）的发动机异常和发动机参数。异常检测基于火箭羽流光谱中的异常金属浓度。这种异常可能表示发动机腐蚀或其他故障。在这里，我们专注于OPAD系统的第二项任务，即预测发动机参数，例如额定功率水平（RPL）和混合比（MR）。由于光谱的高维性，我们开发了一种线性算法，用于将废气羽流的光谱分解为多个单独的成分，每个成分具有不同的物理解释。

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《AIAA computing in Aerospace 10》|1995年|p.29-34|共6页
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Ashok N. Srivastava; Wray Buntine;
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中图分类航空、航天技术的研究与探索;
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1. Observation of the exhaust plume from the space shuttle main engines using the microwave limb sounder [J] . H. C. Pumphrey, A. Lambert, N. J. Livesey Atmospheric Measurement Techniques . 2011,第1期

机译：使用微波肢体探测仪观察航天飞机主发动机的废气羽流
2. Observation of the exhaust plume from the space shuttle main engines using the microwave limb sounder [J] . Pumphrey H. C., Lambert A., Livesey N. J. Atmospheric Measurement Techniques . 2011,第1期

机译：使用微波肢体探测仪观察航天飞机主发动机的废气羽流
3. Observation of the exhaust plume from the space shuttle main engines using the microwave limb sounder [J] . Pumphrey H. C., Lambert A., Livesey N. J. Atmospheric Measurement Techniques Discussions . 2011,第1期

机译：使用微波肢体探测仪观察航天飞机主发动机的废气羽流
4. Predicting engine parameters using the optical spectrum of the space shuttle main engine exhaust plume [C] . Ashok N. Srivastava, Wray Buntine, American Institute of Aeronautics and Astronautics AIAA computing in Aerospace . 1995

机译：使用空间梭主发动机排气羽流的光谱预测发动机参数
5. Automation based on knowledge modeling theory and its applications in engine diagnostic systems using space shuttle main engine vibrational data [D] . Kim, Jonnathan H. 1995

机译：基于知识建模理论的自动化及其在航天飞机主机振动数据诊断中的应用
6. Identification of informative features for predicting proinflammatory potentials of engine exhausts [O] . Chia-Chi Wang, Ying-Chi Lin, Yuan-Chung Lin, 2017

机译：确定可预测发动机排气促炎潜力的信息特征
7. Observation of the exhaust plume from the space shuttle main engines using the microwave limb sounder [O] . Pumphrey H. C., Lambert A., Livesey N. J. 2011

机译：使用微波肢体探测仪观察航天飞机主发动机的废气羽流
8. Range Safety Signal Attenuation by the Space Shuttle Main Engine Exhaust Plumes [R] . Pearce, B. E. 1983

机译：航天飞机主机排气管的距离安全信号衰减

Predicting engine parameters using the optical spectrum of the space shuttle main engine exhaust plume

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