The performance and complexity of signal processing systems for underwater acoustic communications has dramatically increased over the last two decades. With its origins in noncoherent modulation and detection for communication at rates under 100 b/s, phase-coherent digital communication systems employing multichannel adaptive equalization with explicit symbol-timing and phase tracking are being deployed in commercial and military systems, enabling rates in excess of 10 kb/s. Research systems have been shown to further dramatically increase performance through the use of spatial multiplexing. Iterative equalization and decoding has also proven to be an enabling technology for dramatically enhancing the robustness of such systems. This article provides a brief overview of signal processing methods and advances in underwater acoustic communications, discussing both singlecarrier and emerging multicarrier methods, along with iterative decoding and spatial multiplexing methods.
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机译:在过去的二十年中,用于水下声通信的信号处理系统的性能和复杂性已大大提高。起源于以100 b / s以下的速率进行通信的非相干调制和检测,采用多通道自适应均衡,显式符号定时和相位跟踪的相干数字通信系统正在商业和军事系统中部署,使速率超过10 kb /秒。研究表明,通过使用空间复用技术,研究系统可以进一步显着提高性能。迭代均衡和解码也已被证明是一种用于显着增强此类系统的鲁棒性的技术。本文简要概述了信号处理方法和水下声学通信的进展,讨论了单载波和新兴的多载波方法,以及迭代解码和空间复用方法。
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