WDM technology is the basis of optical network implementation.
WDM技术是光网络实现的基础。
Blazed grating based WDM device is one kind of potential one in DWDM technology.
光栅型DWDM是一种很有发展潜力的密集波分复用器件。
WDM technology is an effective method to enlarge the capacity of optical fiber communication and to use fully optical fiber bandwidth.
利用WDM技术则是扩大光纤通信容量、充分挖掘光纤带宽资源的有效手段。
The WDM technology, as the only proven super high capacity optical transmission system, has already found wide applications in networks;
波分复用技术已经在网络中广泛采用,是目前唯一成熟且付诸实用的超大容量光传输系统;
WDM technology is a method for increasing the transmission capacity of optical fiber, but the transmission performance in WDM system with high speed and long distance is limited.
波分复用(WDM)技术是增大光纤传输容量的方法,但是在高速率、长距离wdm系统中传输性能受到限制。
The sensing structure has the novel double Sagnac loop and WDM technology instead of traditional double light source, reducing the system error and realizing the measurement of multi disturbance.
该传感结构采用新型的双萨尼亚克环结构并用波分复用技术代替了传统的双光源结构,减小了系统损耗,实现了对多扰动的位置的测量。
With the rapid commercial applications of the WDM technology and the explosive growth of the transmission bandwidth of backbone networks, network survivability has become increasingly more important.
随着波分复用(WDM)技术的迅速商用化,骨干网络传输带宽呈现爆炸式增长的趋势,这使得网络生存性变得越来越重要。
For getting superior quality and denser WDM device, a new method to make demultiplexing device with volume holographic technology is studied.
为了寻求更高质量和密集度的WD M器件,对体全息技术制作WD M器件的新方法进行了研究。
Load balancing algorithm researched in the paper is to implement traffic engineering in the WDM network which USES MPLS technology.
本文研究的负载均衡算法就是业务量工程在采用了MPLS技术的WDM网络中的实现。
Dense wavelength division multiplexing (DWDM) is the key technology in optical fiber communication, and the arrayed waveguide gratings (AWG's) have wide applications in WDM systems.
密集波分复用(DWDM)是光纤通信中的关键技术,而阵列波导光栅(awg)在波分复用系统中有着广泛的应用。
This paper introduced a thermal resistance model of semiconductor laser diode, and analyzed wavelength control technology of laser diode in dense WDM system.
本文利用半导体激光器的热阻模型,研究分析了密集波分复用系统中光源的波长控制技术。
In WDM networks, wavelength conversion is a key technology, but it is always the focus of the contention.
WDM网络中,波长变换技术是一项关键技术,然而却一直备受争议。
The wavelength conversion is an important technology in WDM optical networks.
波长转换是WD m光网络中一项重要的基础技术。
In WDM network, the technology of wavelength conversion is a key technology, but it is always the focus of the contention.
WD M光网络中,波长变换技术是一项关键技术,然而其使用却一直备受争议。
In order to use the USB technology, the paper briefly introduces the relative knowledge of USB interface, and introduces the development process of WDM driver.
为了把usb技术应用到本设计中,本文还简单介绍了USB接口,WDM驱动程序的开发过程。
With the WDM (wavelength Division Multiplexing) technology based on EDFA (Erbium Doped fiber Amplifier) developing, it is possible to use multiple wavelengths to transmit over the same optical fiber.
基于掺铒光纤放大器(EDFA)的波分复用技术(WDM)的出现,使得在同一根光纤中能传输多个波长的光波信号。
As the key technology in WDM system, erbium-doped fiber lasers and amplifiers have acquired more attentions for their inherent advantages.
作为WDM通信系统中的关键技术,掺铒光纤激光器和放大器由于本身所具有的一系列优越性,受到越来越多的关注。
The pacing technology in making the WDM device such as selecting record material, making sure recording geometry and exposure time are analyzed further.
进一步分析该WDM器件制作过程中诸如记录材料选择、写入光路及曝光时序的确定等关键技术环节。
It is facing more opportunities and challenges than the increasingly maturated wavelength division multiplexing (WDM) technology.
相对于日趋成熟的波分复用(WDM)技术,OT DM技术正面临机遇与挑战。
It is facing more opportunities and challenges than the increasingly maturated wavelength division multiplexing (WDM) technology.
相对于日趋成熟的波分复用(WDM)技术,OT DM技术正面临机遇与挑战。
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