摘要
针对船载平台的特性设计了激光光束跟踪控制策略,并根据船-岸激光通信的特点,设计了155Mbit/s岸上通信终端和船载通信终端完成船-岸激光通信跟踪实验。其中船载终端x轴跟踪残差为3.5μrad(σ),y轴为6.7μrad(σ);平均接收光功率为-29.76dbm,标准差0.35dbm。岸上终端x轴跟踪残差为1.7μrad(σ),y轴为3.9μrad(σ);平均接收光功率为-28.18dbm,标准差0.26dbm。实验验证了该跟踪控制策略适用于船载激光通信。
Ship-borne optical communication is significant as an important node of the future free-space optical communication network. A special beacon tracking control strategy is designed for the ship plat- form. And then a ground communication terminal and a ship-borne terminal are designed based on the features of ship-shore optical communication to conduct the tracking experiment and demonstrate 155 Mbit/s free-space optical communication. The beacon tracking data and received optical power data are recorded. These data show that the ship-borne terminal has an x-axis tracking error of 3.5 μrad (σ) and a y-axis error of 6.7 μrad (σ) ,while the ground terminal has an x-axis tracking error of 1.7μrad (σ) and a y-axis error of 3.9 μrad (σ). The average received optical power of ship-borne terminal is -29.76 dBm with standard deviation of 0.35 dBm and that of ground terminal is -28.18 dBm with standard de- viation of 0.26 dBm. The experimental results validate that the tracking control strategy is suitable for ship-borne optical communication.
出处
《光电子.激光》
EI
CAS
CSCD
北大核心
2014年第3期478-484,共7页
Journal of Optoelectronics·Laser
基金
国家自然科学基金青年科学基金(11204220)基金项目
关键词
船载平台
无线激光通信
跟踪
PID控制
ship-borne platform
free-space optical communication
tracking
PID control
