Simulation results give the typical cooperative MIMO communications parameters settings, and the performance of node selection methods is compared in different application environments.
本文通过仿真给出了能耗最低的协作MIMO通信参数典型设置,并比较了不同协作节点选取方式在不同应用环境下的性能。
The paper introduces the implementation of MIMO technology for broad-band wireless communications, and the researching and the orientation of MIMO technology.
文章主要介绍了MIMO技术在无线宽带通信中的作用以及MIMO技术的研究概况和方向。
To improve the channel capacity, a new Alamouti space-time block coding (STBC) multiple-input multiple-output (MIMO) system was employed for underwater communications.
为了提高水声信道的信道容量,将多输入多输出(MIMO)技术用于水声信道,提出一种基于空时分组编码(STBC)的MIMO通信系统。
As an effective way to achieve high data rates, MIMO technique has been widely studied and employed in new-generation of wireless communications systems.
为实现高速无线数据传输,MIMO技术作为一种有效的手段得到了广泛的研究,并被新一代无线通信系统所采用。
This chapter highlights recent advances on multi-input multi-output (MIMO) communications based on partial CSI from both information- and communication-theoretic perspectives.
本章重点在多输入最新进展多输出(MIMO)的倡议的基础上从局部的信息和通信,通信理论观点。
We discuss the applications of MIMO in new generation mobile communications. We analyse Shannon Capacity and Probability of Error in the mobile communications system when it USES MIMO Technology.
探讨了MIMO在新一代移动通信系统中的应用,分析了在不增加带宽的情况下应用MIMO技术后移动通信系统的容量、误码率。
Multiple Input Multiple Output (MIMO) system with higher gains in channel capacity is one of the key technologies for future wireless communications.
多输入多输出(MIMO)系统是未来移动通信的关键技术之一,其特点是在不增加带宽的情况下提高通信系统的容量和频谱利用率。
Multiple Input Multiple Output (MIMO) system with higher gains in channel capacity is one of the key technologies for future wireless communications.
多输入多输出(MIMO)系统是未来移动通信的关键技术之一,其特点是在不增加带宽的情况下提高通信系统的容量和频谱利用率。
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