| 1. | All intensity measurements using photometric units include a spectral bias (spectral response of the human eye) .
运用光度计装量进行辐射强度测量都应包括一个光谱的偏倚(人眼对光谱的敏感度)。 |
| 2. | Calibration of bi - hydrophone used in acoustic intensity measurement system
声强测量系统用双水听器的校准方法研究 |
| 3. | Application of sound intensity measurement method in spotting the noise source of engine surface
声强测量法在发动机表面声源识别中的运用 |
| 4. | Sound intensity measurement allows accurate identification , isolation and ranking of individual sound sources
声强测量可以精确的鉴别、孤立、列举单个噪声源。 |
| 5. | An underwater sound intensity measurement system and its application to radiation noise measurement of underwater structure in the near - field
水下声强测量分析系统及其在近场测量中的应用 |
| 6. | All intensity measurements using photometric units include a spectral bias ( spectral response of the human eye )
运用光度计装量进行辐射强度测量都应包括一个光谱的偏倚(人眼对光谱的敏感度) 。 |
| 7. | Sound intensity measurements accurately capture only the sound produced by the source under test , eliminating interference from other sounds and realizing the location of the sound
声强测量可以剔除其他声音的干扰,准确的确定声源的位置,即进行声源定位。 |
| 8. | The sound intensity measurement instruments and the development tendency are firstly discussed in this paper , and the research significance of the project is illustrated
本文在一开始分析了国内外现有声强测试设备的结构和发展趋势,并对本课题的意义做了阐述。 |
| 9. | With quick development of acoustic theory and increasing maturity of sound intensity measurement method , it is more and more important to develop a quick real - time sound intensity sampling and processing system
随着声学理论的快速发展和声强测量方法的日益成熟,使得开发一种专用快速的实时数据采集与处理系统显得尤为必要。 |
| 10. | Our cosine correctors couple to optical fibers and spectrometers for relative and absolute spectral intensity measurements , for emissive color applications , and for evaluation of light sources such as leds and lasers
我们的余弦校正器可与光纤和光谱仪连接,用于相对光谱强度和绝对光谱强度测量、发射光谱测量,以及对led光源和激光光源进行评价。 |
