A reusable and extendable testbed for implementation and evaluation of cooperative sensing

International Workshop on Performance Monitoring, Measurement, and Evaluation of Heterogeneous Wireless and Wired Networks Pub Date : 2013-11-03 DOI:10.1145/2512840.2512847

T. Akram, Tim Esemann, Torsten Teubler, H. Hellbrück

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引用次数: 2

Abstract

Cooperative sensing has been identified as a potential improvement for cognitive radios to perceive their radio environment. In the past, algorithms have been developed by analysis and simulations exclusively. With cheaper hardware experimental platforms have been used for evaluation purpose recently. Simulations lack realistic propagation models for radio transmission but are reproducible compared to experimental evaluation done by hand. The effects of reduced detection probability and false alarms are not realistic in these simulations. In this paper, we suggest a reusable and extendable automated testbed software and instructions for deployment of own testbeds. Primary users as well as secondary users with cooperating cognitive radios can be flexibly deployed in the testbed within seconds. The advantage is that a series of even long lasting measurements including automatic logging of results can be easily repeated. Results can be assessed on the fly during the ongoing evaluation by accessing debug output remotely. The testbed supports stationary, portable, and in the future mobile radio devices for flexible scenarios as well as monitoring devices for debugging. The testbed and the radio devices are validated by deploying primary and secondary user in a small scenario whose outcome was analyzed beforehand. The results are as predicted and show the usefulness of this approach.

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协同感知实现与评估的可重用、可扩展测试平台

协作感知已被确定为认知无线电感知其无线电环境的潜在改进。过去，算法都是通过分析和模拟来开发的。近年来，由于硬件成本较低，实验平台已被用于评估目的。模拟缺乏真实的无线电传输传播模型，但与手工进行的实验评估相比是可重复的。在这些仿真中，降低检测概率和虚警的效果是不真实的。在本文中，我们提出了一个可重用和可扩展的自动化测试平台软件，以及部署自己的测试平台的说明。具有协同认知无线电的主用户和从用户可在数秒内灵活部署到试验台。其优点是，包括自动记录结果在内的一系列甚至持久的测量可以很容易地重复。通过远程访问调试输出，可以在正在进行的评估过程中动态地评估结果。该测试平台支持固定式、便携式和未来灵活场景下的移动无线电设备，以及用于调试的监控设备。通过在小型场景中部署主用户和辅助用户，对测试平台和无线电设备进行了验证，并对测试结果进行了事先分析。结果与预测一致，表明了该方法的有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Workshop on Performance Monitoring, Measurement, and Evaluation of Heterogeneous Wireless and Wired Networks

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