• 主题
高级搜索  >
历史搜索 清空历史
首页> 外文会议>Nirma University International Conference on Engineering >Performance enhancement of 12 ?? 160 Gbps (1.92 Tbps) WDM optical system for transmission distance upto 8000 km with differential coding
【24h】

Performance enhancement of 12 ?? 160 Gbps (1.92 Tbps) WDM optical system for transmission distance upto 8000 km with differential coding

机译:性能提升12 ?? 160 Gbps(1.92 Tbps)WDM光学系统,使用差分编码可实现高达8000 km的传输距离

获取原文
页面导航
  • 摘要
  • 著录项
  • 相似文献
  • 相关主题

摘要

In the past few years the demand for high capacity optical transport platform is rapidly increasing. It has drawn the attention of the researchers. The optical networks with the capacity of the order of Tbps are evolving. The capacity of individual optical channel is increasing towards 100 Gbps and beyond. In this paper, we demonstrate design and performance of 1.92 Tbps WDM Optical System. Three CW lasers are used to generate optical carriers. Twelve sub carriers, each spaced 80 GHz apart are produced using two dual tone generators. Each subcarrier carries information at transmission rate of 160 Gbps to enhance the spectral efficiency to 2 b/s/Hz. The analysis is carried out for 12 ?? 160 Gb/s (1.92 Tb/s) PDM-QPSK WDM optical system considering three different cases that is without coding, with gray coding and with differential coding for 100 km transmission distance. Extensive simulations are carried out to evaluate symbol error rate, error vector magnitude and Q-factor in each case. From the comparison, it is observed that the system with differential coding gives better performance in comparison with other two cases. An improvement in Q-factor with differential coding is achieved in the range of 2 to 5 dB with respect to other two cases. It is also shown that the transmission distance for PDM-QPSK WDM optical system with differential coding can be extended upto 8000 km keeping the Q factor above the FEC limit requirement (BER value 3.8 ?? 10???3).
机译:在过去的几年中,对大容量光传输平台的需求正在迅速增长。它引起了研究人员的注意。容量约为Tbps的光网络正在发展。单个光通道的容量正在增加到100 Gbps甚至更高。在本文中,我们演示了1.92 Tbps WDM光学系统的设计和性能。三个连续波激光器用于产生光载波。使用两个双音调发生器产生十二个子载波,每个子载波相隔80 GHz。每个子载波以160 Gbps的传输速率传输信息,以将频谱效率提高到2 b / s / Hz。分析进行了12 ??考虑三种不同情况的160 Gb / s(1.92 Tb / s)PDM-QPSK WDM光学系统,无需编码,可以使用格雷编码,可以进行100 km传输距离的差分编码。在每种情况下,都进行了广泛的仿真以评估符号错误率,错误向量幅度和Q因子。从比较中可以看出,与其他两种情况相比,具有差分编码的系统具有更好的性能。相对于其他两种情况,利用差分编码实现的Q因子改进在2至5 dB的范围内。还表明,采用Q编码的PDM-QPSK WDM光学系统的传输距离可以扩展到8000 km,同时保持Q因子高于FEC极限要求(BER值3.8≤10≤3)。

著录项

相似文献

  • 外文文献
  • 中文文献
  • 专利
获取原文

客服邮箱:kefu@zhangqiaokeyan.com

京公网安备:11010802029741号 ICP备案号:京ICP备15016152号-6 六维联合信息科技 (北京) 有限公司©版权所有

  • 客服微信

  • 服务号