提出了一种基于无线个域网(WPAN)的传感器应用设计方法。
This paper presents a Sensor Applications Design(SAD) method for Wireless Personal Area Networks(WPAN).
本文提出了一种基于链路选择因子的高速无线个域网自适应时隙调度算法。
In this paper a link select-index based time slot scheduling algorithm for high speed wireless personal network (WPAN) is proposed, which schedules adaptively.
无线个域网是物联网接入的重要形式,全球寻址和低功耗是其重要的研究内容,本文可为物联网的研究提供参考。
For WPAN is a kind of interface networks in Internet of Things, this paper can be a reference of the research on Internet of Things.
无线个域网是以人为中心,在人的活动空间内由各个小型手持设备组成的小范围无线网络,目前主要应用于家庭内部。
Wireless Personal Area networks (WPAN) is the small-scale wireless networks, which is people-centered and composed of various small handheld devices, mostly used in the family.
最后分析了无线个域网两种典型应用环境的特点,并根据前面的结果分别给出了这两种应用环境下提高数据传输速率的方法。
Based on these analysis, methods for improving data transmission rates in two representative applications of WPAN are proposed based on characteristics of these applications.
最后以超宽带认知无线电组成的室内无线个域网为例,给出了平面和空间两种认知场景,并对这两种认知场景进行仿真分析。
Finally, based on an indoor wireless personal area network composed by UWB-CR, the two-dimensional and three-dimensional working scenarios are given respectively, and are simulated and analyzed.
超宽带(uwb)技术是目前热点研究的一种无线个域网(WPAN)技术,而其MAC协议对网络的整体性能有着极重要的作用。
UWB is one of the hottest research topics in the area of WPAN (Wireless Personal area network), and the MAC Protocol is vital to the global network performance.
超宽带(UWB)是一种具有广泛应用前景的短距离无线通信技术,被采纳为无线个域网(WPAN)以及下一代蓝牙通信的物理层。
The ultra wide band (UWB) wireless communication technology is supposed to be used in physical layer of the wireless personal area network (WPAN) and next generation Blue Tooth.
超宽带(UWB)是一种具有广泛应用前景的短距离无线通信技术,被采纳为无线个域网(WPAN)以及下一代蓝牙通信的物理层。
The ultra wide band (UWB) wireless communication technology is supposed to be used in physical layer of the wireless personal area network (WPAN) and next generation Blue Tooth.
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