Physical Layer Performance of the IEEE 802.11b WLAN Standard in Outdoor Applications: A Case Study in Yuma, AZ

机译：户外应用中IEEE 802.11b WLAN标准的物理层性能：以亚利桑那州尤马市为例

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The IEEE 802.11b wireless local area networking (WLAN) standard achieves data rates of 1 Mbps up to 11 Mbps by employing Differential Binary Phase Shift Keying (DBPSK), Differential Quaternary Phase Shift Keying (DQPSK), and advanced Complimentary Code Keying (CCK) waveforms. These waveforms are spread in frequency through either frequency hopping (1-2 Mbps) or direct sequence spread spectrum (5.5-11 Mbps). This paper looks at the physical layer performance of this networking standard in outdoor applications for network topologies that rely on link ranges much greater than those specified in the IEEE 802.11b standard. Physical layer performance is predicted for the U.S. Army Yuma Proving Grounds (YPG) in Yuma, AZ. Bit error rate (BER) and packet error rate (PER) versus range performance are ascertained through modeling and simulation. These results are determined for the 802.11b WLAN implementation for the Two-Way Robust Acquisition of Data (2-RAD) program at the YPG in Yuma, Arizona.

机译：IEEE 802.11b无线局域网（WLAN）标准通过采用差分二进制相移键控（DBPSK），差分四相相移键控（DQPSK）和高级免费代码键控（CCK），实现了1 Mbps至11 Mbps的数据速率波形。这些波形通过跳频（1-2 Mbps）或直接序列扩展频谱（5.5-11 Mbps）在频率上扩展。本文着眼于室外应用中该网络标准的物理层性能，这些应用依赖于链路范围远大于IEEE 802.11b标准中指定的链路范围的网络拓扑。亚利桑那州尤马市的美国陆军尤马试验场（YPG）预测了物理层性能。通过建模和仿真可以确定误码率（BER）和数据包误码率（PER）与范围性能之间的关系。这些结果是针对亚利桑那州尤马市YPG的双向双向数据采集（2-RAD）程序的802.11b WLAN实施确定的。

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来源
《12th Virginia Tech/MPRG Symposium on Wireless Personal Communications; Jun 5-7, 2002; Blacksburg, Virginia》|2002年|p.7-17|共11页
会议地点 Blacksburg VA(US)
作者
William T. Kasch; Jack L. Burbank; Julia Andrusenko; Mark Lauss;
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The Johns Hopkins University Applied Physics Laboratory 11100 Johns Hopkins Rd Laurel, MD 20723;

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原文格式 PDF
正文语种 eng
中图分类无线电电子学、电信技术;
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2. Performance Analysis of IEEE 802.11e (EDCF) and IEEE 802.11(DCF) WLAN Incorporating Different Physical Layer Standards [J] . V. Sharma, H. Singh, J. Malhotra Journal of The Institution of Engineers (India), Series B . 2012,第4期

机译：结合了不同物理层标准的IEEE 802.11e（EDCF）和IEEE 802.11（DCF）WLAN的性能分析
3. Performance Analysis of IEEE 802.11e (EDCF) and IEEE 802.11(DCF) WLAN Incorporating Different Physical Layer Standards [J] . V. Sharma, H. Singh, J. Malhotra Journal of The Institution of Engineers (India), Series B . 2012,第4期

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4. Physical Layer Performance of the IEEE 802.11b WLAN Standard in Outdoor Applications: A Case Study in Yuma, AZ [C] . William T. Kasch, Jack L. Burbank, Julia Andrusenko, Virginia Tech/MPRG symposium on wireless personal communications . 2002

机译：IEEE 802.11b WLAN标准的物理层性能在户外应用中的标准：yuma，az的一个案例研究
5. Implementation of OFDM modem for the physical layer of IEEE 802.11a standard based on Xilinx Virtex-II FPGA. [D] . Manavi, Farzad. 2004

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6. Analysis and performance assessment of a fragment retransmission scheme for energy efficient IEEE 802.11 WLANs [O] . Prosper Mafole, Masayoshi Aritsugi -1

机译：节能IEEE 802.11 WLAN的片段重传方案的分析和性能评估
7. Performance of the IEEE 802.11b WLAN Standards for Fast-Moving Platforms [O] . Kasch William T., Burbank Jack L., Andrusenko Julia, 2003

机译：快速移动平台的IEEE 802.11b WLAN标准的性能

Physical Layer Performance of the IEEE 802.11b WLAN Standard in Outdoor Applications: A Case Study in Yuma, AZ

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