Wideband spectrum sensing measurement results using tunable front-end and FPGA implementation

机译：使用可调前端和FPGA实现的宽带频谱感测测量结果

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In this work, we implement a wideband spectrum sensing receiver using Analog Devices AD9361 RF frontend that can be tuned to frequencies from 70MHz to 6GHz with 30.72MHz bandwidth. An energy detection based spectrum sensing algorithm is implemented on Xilinx Kintex-7 FPGA in a pipelined architecture in order to continuously obtain data capture from the RF frontend without any missed samples and reduced latency. The wideband spectrum sensing algorithm uses 8192 FFT bins and provides center frequency and bandwidth of up to 8 non-overlapping frequency bands. The proposed architecture provides frequency resolution of 37.5kHz, time resolution of 8.53ms and latency of 8.78ms.

机译：在这项工作中，我们使用Analog Devices AD9361 RF前端实现了宽带频谱感测接收器，该前端可以调谐到70MHz至6GHz的频率，带宽为30.72MHz。在流水线架构中，在Xilinx Kintex-7 FPGA上实现了基于能量检测的频谱感应算法，以便从RF前端连续获取数据捕获，而不会丢失任何样本并减少延迟。宽带频谱感应算法使用8192个FFT仓，并提供中心频率和多达8个非重叠频带的带宽。所提出的架构提供了37.5kHz的频率分辨率，8.53ms的时间分辨率和8.78ms的等待时间。

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《Asilomar Conference on Signals, Systems and Computers》|2017年|499-503|共5页
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Xusong Wang; Shailesh Chaudhari; Mihir Laghate; Danijela Cabric;
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Sensors; Field programmable gate arrays; Radiofrequency integrated circuits; Radio frequency; Wideband; Hardware;

机译：传感器;现场可编程门阵列;射频集成电路;射频;宽带;硬件;

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专利

1. Design of a Single Channel Modulated Wideband Converter for Wideband Spectrum Sensing: Theory, Architecture and Hardware Implementation [J] . Weisong Liu, Zhitao Huang, Xiang Wang, Sensors . 2017,第5期

机译：用于宽带频谱传感的单通道调制宽带转换器的设计：理论，体系结构和硬件实现
2. Compressed Measurements Based Spectrum Sensing for Wideband Cognitive Radio Systems [J] . Khalaf Taha A., Abdelsadek Mohammed Y., Farrag Mohammed International journal of antennas and propagation . 2015,第pta5期

机译：宽带认知无线电系统的基于压缩测量的频谱感知
3. Wideband Spectrum Sensing From Compressed Measurements Using Spectral Prior Information [J] . Romero D., Leus G. IEEE Transactions on Signal Processing . 2013,第24期

机译：使用频谱先验信息从压缩测量中进行宽带频谱传感
4. Wideband spectrum sensing measurement results using tunable front-end and FPGA implementation [C] . Xusong Wang, Shailesh Chaudhari, Mihir Laghate, Asilomar Conference on Signals, Systems, and Computers . 2017

机译：使用可调前端和FPGA实现的宽带频谱传感测量结果
5. Efficient Wideband Temporal Spectrum Sensing from Noisy Measurements [D] . Cheng, Hanke. 2020

机译：高效嘈杂测量宽带时间谱检测
6. Wideband Spectrum Sensing: A Bayesian Compressive Sensing Approach [O] . Youness Arjoune, Naima Kaabouch 2018

机译：宽带频谱感测：贝叶斯压缩感测方法
7. Design of a Single Channel Modulated Wideband Converter for Wideband Spectrum Sensing: Theory, Architecture and Hardware Implementation [O] . Weisong Liu, Zhitao Huang, Xiang Wang, 2017

机译：用于宽带频谱感测的单通道调制宽带转换器的设计：理论，体系结构和硬件实现

Wideband spectrum sensing measurement results using tunable front-end and FPGA implementation

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