到现在为止,对于智能天线的研究仅限于窄带无线系统。
Up to now, research on smart antenna has been restricted to narrowband wireless systems.
主要是能承认这种形式的通讯是可能的,正如我们所熟悉的窄带无线电广播是可行的。
The main thing is to acknowledge that such a form of communication is possible, and just as practicable as our familiar narrow-band radio transmissions.
无线电台提供了与互联网协议为基础的系统无缝链接的互操作性和兼容性,并拥有扩展的无线电频率范围和窄带操作模式。
The radio offers seamless interoperability and compatibility with Internet Protocol-based systems and has an extended radio-frequency range and narrow-frequency bandwidth operating modes.
在理论分析的基础上,结合对大量试验数据的分析,给出了空基型导弹图像传输系统无线窄带信道的基本模型。
Based on the analysis of theory data, this paper brings the base model of wireless narrow-band channel for air-based missile image transmission system.
为了解决多径干扰对无线定位精度的影响,该文在传统的窄带相关技术的基础上,利用TK算子对其进行改进。
To solve the accuracy degradation of wireless location that results from multi-path fading, the paper improves the traditional narrow correlation technology using Teager-Kaiser (TK) operator.
本文对窄带CD MA系统无线规划的一些关键问题如系统容量、链路预算、PN偏置、干扰隔离等做了比较详细的讨论。
This paper discusses some critical rf planning problems of narrow-band CDMA, such as system capacity, link budget, PN offset and interference isolation.
此外,你的无线电信号可能会是一个窄带信号,以区别于邻近频带中其他的自然杂波。
Your radio transmission, furthermore, would probably be a narrow-band signal, to distinguish it from other transmissions in neighboring bands as well as naturally occurring noise.
提出了一种基于认知无线电的自适应超宽带(uwb)窄带干扰抑制方法。
A novel adaptive ultrawideband (UWB) narrowband interference suppression method is presented based on cognitive radio (CR) theory.
UWB无线通信技术是一种不同于传统窄带通信技术的全新概念。
UWB (Ultra-wide Band) wireless communication (UWBWC) technology is grealtly different from the conventional narrow-band wireless communication technology.
UWB无线通信技术是一种不同于传统窄带通信技术的全新概念。
UWB (Ultra-wide Band) wireless communication (UWBWC) technology is grealtly different from the conventional narrow-band wireless communication technology.
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