光学通信

  • 网络Optical Communication;FSO
光学通信光学通信
  1. 由于该探测器的高响应速度和对深紫外的灵敏性,其在军事应用上有很大的潜力,如导弹追踪、光学通信和化学/生物传感等等。

    The high speed and deep-UV sensitivity might lead to potential military applications such as missile tracking in addition to optical communications , chemical / biological sensing etc.

  2. 基于生物光学特性的水下光学信道模型,建立了水下光学通信系统性能分析方法。

    An underwater optical channel model which is based on the bio-optical properties is proposed in this paper , and the performance of the underwater optical communications system is evaluated .

  3. 去年十月,多家公司及实业集团共同成立了Li-Fi联盟,以推广高速无线光学通信系统。他们的想法是可见光通信将有助于解决即将来临的数据传输瓶颈问题。

    Last October a number of companies and industry groups formed the Li-Fi Consortium , to promote high-speed optical wireless systems . The idea is that light can help with a looming capacity problem .

  4. 自由大气紫外光学通信的研究

    Study on ultraviolet communication through disengaged atmosphere

  5. 光学通信和无线通信的迅速发展促成了一门新的学科&微波光子学的形成。

    The rapid development of optical communication and wireless communication has led to the new research area of microwave photonics .

  6. 可开发应用于光学通信、电子、电气、汽车、机械等领域。

    The adhesive has oxygen index of 43 and good fire retardance , and be applied in the optical communication , electronics , electric car and mechanical fields .

  7. 本文对紫外日盲区光谱在近距离、保密通信中的应用进行了探讨,并建立了紫外光学通信原理实验系统。

    In this paper , the application of sun blind region ultraviolet spectrum in short range cryptical communication is discussed , and an experimental system of ultraviolet communication is constructed .

  8. 量子压缩用于精度测量、引力波探测、改善光谱敏感性、增强光学通信中信噪比等。

    Many proposed applications of squeezing involve precision measurement , gravitational wave detection , improvement of spectroscopic sensitivity , enhancement of signal-to-noise ratio in optical communication , and so on .

  9. 由于地球大气上层臭氧的吸收作用,阳光中的日盲区(200~280nm)辐射几乎无法到达地球表面,因此,采用这个波段的光学通信系统几乎不会受到太阳光的干扰。

    Because of the absorption of ozonosphere existing in higher level atmosphere , the sun-blind-region ultraviolet radiation ( 200 & 280 ? nm ) of solar spectrum could hardly reach the surface of the earth . Therefore , the communication system using this spectral coverage could hardly be disturbed .

  10. 基于频谱幅度编码的光学码分多址通信系统

    Optical Code Division Multiplexed Access Systems Based on Spectral Amplitude Encoding

  11. 水下光学无线通信系统的关键技术研究

    The Key Technology Research on Underwater Wireless Optical Communication Systems

  12. 光学空间通信进展

    Development of Optical Space Communication

  13. 此有限元系统-光学系统通信链路的实现可大大提高数据的可靠性和设计效率。

    The realization of communication links between finite element systems-optical system can greatly improve the reliability of data and design efficiency .

  14. 在台风、海啸、矿山、流体力学、等离子体、等离子体化学、光学、通信、生物等的研究过程中,出现了大量的非线性偏微分方程。

    In the research of typhoon , tsunami , mining , fluid , mechanics , plasma , plasma chemistry , optics , communications , biology , there has been a great deal of nonlinear partial differential equations .

  15. 在DWDM光网络中,光学串扰对于通信性能有很大的影响,已成为光网络设计中最重要考虑因素之一,也是目前国内外广泛研究的焦点。

    In DWDM optical transport networks , optical crosstalk has great impacts on communication performance , and becomes one of the most important factors when designing optical network , which is also researched by many research institutions .

  16. 分析和实验表明,基于该光学系统的通信终端激光发散角达到0.4mrad,对准误差小于6μrad,可实现2km的自由空间光通信。

    Analysis and experiment show that the laser divergence of 0 . 4 mrad is obtained for the communication terminals based on the optical system , with the pointing error of less than 0 . 3 mrad , on which free space communication in 2 km can be achieved .

  17. 纤维光学技术在通信卫星中的应用

    Applications of Fiberoptic Technology in Satellite Communication

  18. 电子式电流互感器是利用电子技术和光学及光电通信技术来实现电力系统电流监测的新型电流互感器。

    Electronic current transformer is novel current transformer that based on electronics technology and optic fiber communication technology .

  19. 随着集成光学和光通信系统的飞速发展,有关光波导材料和制作工艺方面的研究就显得尤为关键。

    Researches on the materials and arts of fabricating optical waveguides are very important with the rapid development of integrated optics and optical communication systems .

  20. 超短激光脉冲一直是人们关注的焦点,它在超快光学、光纤通信、光纤传感、工业加工、激光医学等方面有极其重要的应用。

    Ultra-short laser pulses have always been the focus of attention and have important applications in ultrafast optics , optical communication , sensors , industrial machining and laser medicine science .

  21. 在研究紫外光学非视线通信技术中,需要深入了解由于紫外大气散射效应所带来的各种信号畸变。

    In researching the technology of UV inspection and UV communication , it is necessary to study the signal distor - tion produced by the UV light 's scatter effect .

  22. 为完善圆偏振通信系统系统,分析了光学元件对通信性能的影响,并提出采用相干接收技术等措施来提高系统的接收灵敏度、误码性能以及抗大气扰动的能力。

    To improve the performance of the communication systems , the impact on the communication performance of optical components is analyzed in the paper , and the technology of coherent detection is adopted , which effectively can improve the receiving sensitivity , BER performance and the ability of anti-atmospheric disturbance .

  23. 光学类明孤子通信系统中的Gordon-Haus定时抖动

    Gordon-Haus Timing-jitter in Optical Bright Soliton-like Communication Systems

  24. 光学薄膜在光通信中的应用

    Applications in Optical Communication of Optical Films

  25. 主要介绍了光学薄膜在光通信的无源型器件中的原理及应用,并与光纤光栅和平面光波导型的无源器件作简单比较。

    The technology and applications in non-source device of optical communication of optical films are described .

  26. 窄线宽半导体激光器在光学测量和光通信领域有着十分广泛的应用。

    Narrow linewidth semiconductor laser is widely used in fields of optical measurements and optical communications .

  27. 光学滤波器是光通信系统中极其重要的器件,尤其是适于集成化的亚波长器件。

    Optical filter plays a very important role in optical communication systems device , especially sub-wavelength devices for integrating .

  28. 近年来,由于在光学操控和光通信等方面具有潜在的应用价值,奇点光学发展迅速。

    Recently , because of their theoretical importance and attractive potential applications in optical manipulation and optical communication , singular optics develops rapidly .

  29. 重点介绍了局域体全息光栅的耦合波理论方法及其在设计基本光学元件、光通信、集成光学等方面的应用及其发展现状。

    Its applications and development status in designing the basic optical elements , optical communication and integrated optics , etc are also described .

  30. 集成光学是在光通信、光计算机及光信息处理等新兴技术需求的基础上应运而生的。

    The integrated optics arises from the foundation of the needs of emerging technologies , such as the optical communication , the light computer and the optical information processing .