啁啾声
边带
计量系统
电子工程
控制重构
观测误差
光学
航程(航空)
分辨率(逻辑)
计算机科学
频率响应
动态范围
声学
准确度和精密度
频率调制
跨度(工程)
实现(概率)
自动频率控制
信号(编程语言)
时频分析
测量不确定度
信号处理
频率标准
倍频器
物理
模棱两可
工程类
反射计
测量仪器
控制系统
无线电频率
作者
Zhouyang Pan,Dan Zhu,Boyang Ni,Yanghaolin Cao,Jiewen Ding,Rongtian Jiang,Ping Li,Shilong Pan
标识
DOI:10.1109/tmtt.2025.3592955
摘要
A photonics-based system for simultaneous time–frequency analysis and angle-of-arrival (AOA) measurement with reconfigurable frequency resolution has been introduced and experimentally demonstrated. Simultaneous AOA-to-power and frequency-to-time mapping enables time–frequency analysis and AOA measurements. The direction ambiguity resulting from single-pulse measurements can be resolved by using two frequency-shifted optical carriers to generate distinct mapping curves. In addition, the theoretical AOA measurement range can be doubled from 90° to 180°. Meanwhile, the frequency measurement ambiguity can also be eliminated by introducing the negative second-order optical chirp sideband to provide a pilot signal. In this way, the frequency measurement range can be doubly extended to the chirp bandwidth. Furthermore, the flexible frequency resolution reconfiguration can be realized by simply adjusting the slope of the low-speed electrical control signals. A proof-of-concept experiment is conducted. The time–frequency analyses are experimentally achieved over the range of 1–13 GHz, with the frequency resolution adjusted from 1.163 GHz to 13 MHz. The AOA measurement is also achieved with the span from −75° to 75° and the error of ±2.5°.
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