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引用次数: 0
摘要
由于电池电量有限,对于网络上的任何移动节点来说,电源控制都是一个非常重要的问题。当节点采用码分多址(CDMA)共享可用带宽时,需要很好地控制传输功率,以避免网络噪声水平的上升和对其他节点的干扰。这个问题在ad-hoc网络中更加困难,因为没有基站来控制每个节点的传输功率。这项工作提出了物理层和逻辑层之间的跨层方法,以解决在自组织网络中使用低功耗CDMA节点进行室内传播信道的功率控制问题。我们的工作使用物理层上的代码采集和跟踪系统来确定收发器(TR)距离。该信息提供给上层。本文还提出了一种简单、无碰撞、节能的MAC协议“距离感知功率控制”(distance - aware power control, DAPC),该协议在接收器周围定义了一个排除区域,以克服CDMA经典的多址干扰(multi - Access Interference, MAI)问题,如“远近”问题。
Effective power control in UWB systems using spreading code’s spatial resolution properties
Power control is a very important issue for any mobile node on a network, because of its limited battery power. If nodes use Code Division Multiple Access (CDMA) to share the available bandwidth, the transmitted power needs to be well controlled, to avoid the rise of noise level on the network and interferences with other nodes. The problem is even more difficult in ad-hoc networks, because there is no base station to control each node's transmitted power. This work presents a cross layer approach between the physical and logical layers to solve the power control problem, in ad-hoc networks, using low power CDMA nodes for indoor propagation channels. Our work uses a code acquisition and tracking system on the physical layer to determine the Transmitter - Receiver (TR) distance. This information is provided to the upper layer. It is also proposed a design of a simple, collision free and power efficient MAC protocol named "distance aware power control" (DAPC), which defines an exclusion region around the receptor to overcome CDMA classical Multiple Access Interference (MAI) problems, like the "near-far" problem.
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