| 1. | Optimized design and performance evaluation of a field - running ali - optical network
现场运行全光通信网的优化设计与性能评估 |
| 2. | It can be expected that fabry - perot filters and fiber grating filters will still play important roles in future all optical communication systems
它们的应用将大大推动高速光通信的发展,在未来的全光通信系统中仍将扮演重要的角色。 |
| 3. | Since the soaring development of wdm all - optical communication , new types of optical add - drop mulltiplexer ( oadm ) has drawn more and more researchers " attentions
<中文摘要> =随着wdm全光通信网的发展,各种新型光分插复用( oadm )器件已越来越受到人们的关注 |
| 4. | The structure and property of optical encoder and decoder impact the performance of ocdma system directly and judging whether the system could work practically
光编解码器的结构和特性直接影响着ocdma系统的总体性能,决定着ocdma系统能否实际应用于全光通信网络中。 |
| 5. | Wavelength division multiplexing ( wdm ) all - optical communication network , which utilizes the enormous bandwidth and excellent transport performance of optical fiber , is very promising
波分复用( wdm )全光通信网充分利用了光纤巨大的带宽和优异的传输性能,具有良好的发展前景。 |
| 6. | Optical code division multiplexing access ( ocdma ) is one of the possible resolutions for all optical communication network in the future , which is a hot topic in optical communication research
光码分多址ocdma ( opticalcodedivisionmultipleaccess )是未来高速全光通信网络的备选方案之一,是目前光通信技术领域研究的热点。 |
| 7. | Great progress has been made in fiber communication technology these years . all - optical communication network , which is based on ops ( optical packet switching ) , has been the objective of the future optical communication network
最近几年,光纤通信技术得到了极大的发展,基于光分组交换的全光通信网已经成为未来光通信网的发展目标。 |
| 8. | The internet , especially the world wide web , is dramatic examples of new modes of communication that have placed heavy demands on the current infrastructure . the current fiber communication networks will be developed to all optical networks in the future
互联网的发展使得人们对现有的通信体系提出了更高的要求,其中一个目标就是建立全光通信的网络平台以提高数据传输的透明性。 |
| 9. | With the development of optical fiber network , it makes a higher requirement of photonic devices . all optical network ( aon ) will be the main physical carrier in the future , the development of photonic devices will be the key technology to realize aon
随着光纤网的渗透,对光子器件提出了更高的要求,全光通信网将是未来信息高速公路的主要物理载体,光子器件的发展是实现全光网的关键。 |
| 10. | The numbers of multiplexing channels include 2 , 32 , 64 , 256 and even larger . the technologies of wdm devices include thin film , fiber grating , hologram grating , arrayed - waveguide grating ( awg ) , in which awg is considered to be the most promising dwdm device . soi ( silicon - on - insulator ) is a kind of applicable material
波分复用器件是全光通信网络的关键器件,在光纤通信系统中起着重要作用, dwdm技术复用的路数从2路到现今的32路、 64路、 256路甚至更高。 |
