The signal detection in MIMO wireless communication systems ("MIMO detection") is a key problem in MIMO system-related research that can never be bypassed.
MIMO无线通信系统中的信号检测(即“MIMO检测”),是MIMO系统研究中不可回避的关键技术问题。
Channel estimation and tracking in time-varying MIMO wireless communication systems play a key role in detecting, decoding and recovering the transmitted ingormation at receiver side.
对时变多输入多输出(MIMO)信道的估计和跟踪是实现MIMO系统接收端准确检测、解码等的前提。
In addition, there will be frequency selective fading in the future broadband MIMO wireless communication systems, and the traditional high-performance equalizer will become extremely complicated.
另外在未来宽带MIMO无线通信系统中,通常面临频率选择性衰落信道,传统高性能均衡器就会变得异常复杂。
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.
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。
This dissertation is concerned with channel estimation in both OFDM and MIMO-OFDM wireless communication systems and adaptive modulation in MIMO-OFDM systems.
本文研究了OFDM和MIMO-OFDM无线通信系统的信道估计技术以及MIMO-OFDM系统的自适应调制技术。
MIMO has been widely used in many wireless communication systems like WLAN, Wimax and LTE due to its outstanding advantages.
由于MIMO系统多入多出的特点,传统的无线通信测试方法很难满足测试要求。
MIMO/OFDM is an effective architecture for future wireless communication systems.
MIMO/OFDM是未来宽带无线通信接口的有效架构。
With an enormous advantage of achieving high system capacity, MIMO technique has been one of the widely used techniques in future wireless communication systems.
MIMO技术在提高无线通信系统容量和可靠性上具有的巨大优势,使其成为未来移动通信普遍采用的技术之一。
With an enormous advantage of achieving high system capacity, MIMO technique has been one of the widely used techniques in future wireless communication systems.
MIMO技术在提高无线通信系统容量和可靠性上具有的巨大优势,使其成为未来移动通信普遍采用的技术之一。
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