机构地区:[1]School of Electronics and Information Engineering,Xi'an Jiaotong University,Xi'an 710049,China
出 处:《Science China(Information Sciences)》2012年第4期765-777,共13页中国科学(信息科学)(英文版)
基 金:supported by National Natural Science Foundation of China(Grant No.60832007);National High-Tech Research & Development Program of China(Grant No.2009AA011801);National Key Laboratory Foundation of China(Grant No.9140C5303030803)
摘 要:To address the problem that long-range communication capability in ad hoc networks using directional antenna is not generally utilized, a directional media access control (DMAC) protocol with long-range communication (LRC) capability in ad hoc networks is proposed. In the LRC-DMAC, the intermediate node uses a long-range orientation (LRO) algorithm to help the transmitter obtain the directional information of the receiver which is two hops away. Consequently, the long-range link between such two hops nodes can be set up. According to whether the received power information is available or not, we propose two types of LRO algorithm: without the received power information, a basic LRO obtains the approximate directional informa- tion of the long-range receiver by a geometric relationship; however, the LRO-PI can calculate the accurate directional information of the long-range receiver using the received power. Performance analysis indicates that the LRO algorithm achieves high accuracy when the relevant parameters are properly chosen. Simulation results show that the establishment of long-range links can effectively improve the network throughput and reduce the end-to-end delay.To address the problem that long-range communication capability in ad hoc networks using directional antenna is not generally utilized, a directional media access control (DMAC) protocol with long-range communication (LRC) capability in ad hoc networks is proposed. In the LRC-DMAC, the intermediate node uses a long-range orientation (LRO) algorithm to help the transmitter obtain the directional information of the receiver which is two hops away. Consequently, the long-range link between such two hops nodes can be set up. According to whether the received power information is available or not, we propose two types of LRO algorithm: without the received power information, a basic LRO obtains the approximate directional informa- tion of the long-range receiver by a geometric relationship; however, the LRO-PI can calculate the accurate directional information of the long-range receiver using the received power. Performance analysis indicates that the LRO algorithm achieves high accuracy when the relevant parameters are properly chosen. Simulation results show that the establishment of long-range links can effectively improve the network throughput and reduce the end-to-end delay.
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