使用带有RPi和PlutoSDR的OFDM实时射频图像传输

Jay Patel, M. Seto
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引用次数: 1

摘要

正交频分复用(OFDM)是一种多载波数字通信技术,它解决了数字通信中诸如码间干扰(ISI)、低数据速率和载波间干扰(ICI)等问题。它使用多个低数据速率的载波组成一个高数据速率的通信系统。每个低数据速率载波具有足够长的符号周期,从而消除ISI。正交性允许每个载波频率虽然重叠,但间隔很近,没有ICI。本文的贡献是表明实时OFDM射频通信是可能的,并评估其性能。这是通过集成几个嵌入式平台实现的:轻量级处理器、网络摄像头和使用Mathworks MATLAB环境的软件定义无线电。这是一种传输实时图像或视频馈送的有效方式,用于监视和监视目的。这项工作的重点是将实时图像以恒定的速率从网络摄像机传输到软件无线电,软件无线电将其转发到远程位置的另一个软件无线电。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Live RF Image Transmission using OFDM with RPi and PlutoSDR
Orthogonal frequency-division multiplexing (OFDM) is a multi-carrier digital communication technique which addresses digital communication problems like intersymbol interference (ISI), low data rates, and inter-carrier interference (ICI). It uses multiple low data rate carriers to assemble a high data rate communication system. Each low data rate carrier has enough long symbol periods which then eliminates ISI. Orthogonality allows each carrier frequency to be closely spaced, although overlapped, without ICI. The contribution of this paper is to show that real-time OFDM RF communications is possible and assess its performance. This was achieved by integrating several embedded platforms: a light-weight processor, web camera, and software define radio using the Mathworks MATLAB environment. This is an efficient way to transmit live images or video feeds for monitoring and surveillance purposes. The work focused on transmitting live images at a constant rate from the web camera to the software defined radio, which relayed it to another software defined radio at a remote location.
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