最后,利用两组实际的航空发动机油样光谱分析数据对模型进行了验证。
Finally, two time series and aero-engine spectrometric oil analysis data were used to verify this model.
本文使用PB- 700微型计算机和通用的BASIC语言编制了摄谱法光谱分析数据处理程序。
In this paper, an utility program has been worked out for spectrographic analysis based on PB-700 microcomputer and common BASIC language.
他们有光谱分析的方法测定它们的颜色,看它们是饱经风霜的还是新鲜的,然后把这个数据和近地小行星的轨道历史测量数据结合起来分析。
They used a process called spectroscopy to determine their colors, to see if they were weathered or fresh, and then combined this data with measurements of the NEAs' orbital histories.
从原始光谱中提取有效信息,对原始数据进行优化处理,成为近红外光谱分析中建立较理想数学模型的关键。
So extracting effective information from NIR spectrum and optimizing the original spectrum data are crucial to develop ideal mathematical model in NIRS.
油液光谱分析诊断系统(SADS)由人机交互、数据管理、知识库管理、推理机、自学习调整、远程故障诊断和系统输出等模块组成。
Spectrum analysis diagnosis system (SADS) is composed of user interface, data management, KBM, reasoning facility, self-learning adjusting, remote fault diagnosis and system output modules etc.
在实际操作中,只有严格按照光谱分析的要点去做,才能保证分析数据的准确。
The practices shows only do that according to the main points of spectrum analysis can the analysis data be accurate.
以大量数据论述硅铁试样制备过程各环节对X射线荧光光谱分析准确性的影响规律,并制定硅铁试样的制备方法。
The article discusses regularity of all aspect affects X - ray spectrometer accuracy with a lot of datum during making Ferro Silicon, and formulates the method of making Ferro Silicon.
结合油液光谱分析的数据和发动机在实际中常见磨损故障现象,研制和开发了油液光谱分析诊断专家系统。
Combining the Spectrometric oil analysis data and the practical wear fault phenomena of the engines, the author has developed a Spectrometric oil analysis fault diagnosis expert system.
由于经验模型的缺陷性,还提出了基于TM数据的水体混合光谱分析模型,同时分析了端元光谱提取方法对模型求解的影响。
In this paper we build chlorophyll-a models based on TM data, in which the traditional band ratio approach and mixing spectral analysis model were used.
将光学系统、CCD、数据采集卡和光谱分析软件组成完整的数字光谱分析系统。
Third, The optical system, CCD, data acquisition board and spectrum analysis software has been integrated. Spectrum instrument is calibrated by standard mercury lamp.
本文分析了补换油不确定性对光谱分析的影响,提出了基于多元线性回归和时间序列分析的光谱数据处理与磨损故障诊断的方法,并通过实例验证了这一方法的适用性。
This paper, firstly analyzes the affect caused by the uncertainty, then studies the statistics and time series based method for spectrographic oil data processing and wear diagnosis. An example …
本文分析了补换油不确定性对光谱分析的影响,提出了基于多元线性回归和时间序列分析的光谱数据处理与磨损故障诊断的方法,并通过实例验证了这一方法的适用性。
This paper, firstly analyzes the affect caused by the uncertainty, then studies the statistics and time series based method for spectrographic oil data processing and wear diagnosis. An example …
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