本文首先介绍了多输入多输出技术和多载波复用技术,讨论了无线信道的特点。
In the paper, firstly the multiple-input-multiple-output technology and the multiple carriers multiplexing technology are discussed. Also the characters of wireless channels are introduced.
以高速率、高吞吐量为目标,该技术综合了正交频分复用技术强抗干扰的特性,和多输入多输出技术高信道容量的优势。
It aims for high transmission rate and high throughput, and it combines OFDM which has the strong ability of preventing interference with MIMO which has the advantages of high channel capacity.
多输入多输出(MIMO)技术可以为系统提供空间复用增益和空间分集增益。
Spatial multiplexing and space diversity gain of a system can be extracted through MIMO technique.
多输入多输出(MIMO)技术是新一代无线通信系统的关键技术之一,它既可以增加传输的可靠性,也可以增加传输的速率。
Multiple Input Multiple Output (MIMO) is a key technology in the wireless communication systems of the new generation, as a result of its benefit for improving either the reliability or the speed.
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。
To improve the channel capacity, a new Alamouti space-time block coding (STBC) multiple-input multiple-output (MIMO) system was employed for underwater 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)雷达的关键技术之一是天线阵列的设计。
One of the key aspects of a multiple-input multiple-output(MIMO) radar system is its array design.
LTE系统采用多输入多输出(MIMO)和正交频分复用(OFDM)作为两大主要技术以应对系统大容量与高频谱利用率等需求。
LTE system adopts MIMO and OFDM as its two most important fundamental techniques, so as to respond to the requirements of large capacity and high spectral efficiency.
LTE系统采用多输入多输出(MIMO)和正交频分复用(OFDM)作为两大主要技术以应对系统大容量与高频谱利用率等需求。
LTE system adopts MIMO and OFDM as its two most important fundamental techniques, so as to respond to the requirements of large capacity and high spectral efficiency.
应用推荐