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。
The future wireless communication systems will be ranged from global satellite systems to personal area networks.
未来的无线通信系统大到覆盖全球的卫星网,小到个人域网。
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。
The terms broadband and seamless are the main keywords for future wireless communication systems and the mobility management is the most important problem in seamless roaming across systems.
未来无线通信网络的两个最重要的研究问题就是宽带和无缝漫游,而移动性管理是实现网络间无缝漫游的关键难题之一。
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。
There are two serious challenges in the future broadband wireless communication systems: multi-path fading in the wireless channel and spectral efficiency.
在未来的宽带无线通信系统中,存在着两个严峻的挑战:无线信道的多径衰落和频谱效率。
The future wireless mobile communication systems are expected to provide high-rate, high-quality and efficient data transmission.
未来无线移动通信系统对数据传输速率、通信可靠性及有效性提出了更高的要求。
The future wireless mobile communication systems are expected to provide ubiquitous, high-quality, and high-rate mobile multimedia transmission.
未来无线通信系统的目标是实现随时无缝的高质量、高速率的多媒体和数据业务传输。
The future wireless mobile communication systems are expected to provide ubiquitous, high-quality, and high-rate mobile multimedia transmission.
未来无线通信系统的目标是实现随时无缝的高质量、高速率的多媒体和数据业务传输。
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