Technical Physics Letters ( IF 0.8 ) Pub Date : 2020-12-14 , DOI: 10.1134/s1063785020110176 M. E. Belkin , A. V. Alyoshin , D. A. Fofanov , A. S. Sigov
Abstract
A new approach to design an ultra-wideband device for blocking radio-controlled explosive apparatuses, in which a multi-channel processing unit based on a set of narrow-band radio signal receiving units with the introduction of noise interference into each channel has been replaced by a single-channel microwave photonic analogue using an optical recirculating circuit-based optoelectronic radio signal processor to suppress the transmission channel, is proposed and previously investigated. The block diagram and results of computer simulation of the optoelectronic processor are described for the transmission of standard radio telecommunication signals, confirming the possibility and determining the key conditions for blocking a radio channel.
中文翻译:
研究无线电控制爆炸装置响应式干扰器的微波光子学设计原理
摘要
设计用于阻止无线电控制炸药的超宽带设备的新方法,其中基于一组窄带无线电信号接收单元的多通道处理单元已被替换,并且在每个通道中引入了噪声干扰提出并先前研究了使用基于光再循环电路的光电无线电信号处理器的单通道微波光子模拟来抑制传输通道。描述了用于标准无线电信信号传输,确认可能性并确定阻塞无线电信道的关键条件的光电处理器的框图和计算机仿真结果。