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Wireless signal detection method based on periodogram

A periodogram, frequency domain signal technology, applied in transducer circuits, transmission monitoring, sensor components and other directions, can solve the problems of narrowband interference and wireless microphone signal distinction, high false alarm rate and other problems

Active Publication Date: 2014-08-13
UNIV OF SCI & TECH OF CHINA
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The present invention provides a wireless microphone signal detection method based on a periodogram, which is used to solve the problem that the existing wireless microphone signal detection method cannot distinguish narrow-band interference from the wireless microphone signal, resulting in a very high false alarm rate. problem, which greatly increases the number of available TV white space

Method used

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  • Wireless signal detection method based on periodogram
  • Wireless signal detection method based on periodogram
  • Wireless signal detection method based on periodogram

Examples

Experimental program
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Effect test

Embodiment 1

[0085] This embodiment describes the system simulation based on the periodogram wireless microphone detection method. The simulation is carried out based on the MATLAB environment, and the specific simulation steps are as follows:

[0086] 1) Generate a sinusoidal continuous wave signal and a frequency modulated (FM) wireless microphone signal, and then perform down-conversion, low-pass filtering, and down-sampling to obtain a baseband discrete-time signal x[n].

[0087] 2) Set the signal-to-noise ratio SNR, frequency modulation factor β and calculate T p The window length L and other performance parameters.

[0088] 3) Use preprocessing algorithm and detection algorithm to process the signal.

[0089] 4) Draw performance curves under different parameters

[0090] attached figure 2 , image 3 with Figure 4 It is the performance curve obtained by simulation, as can be seen from the figure, for the wireless microphone signal of β=0.7, when L is taken as 11 and the false ...

Embodiment 2

[0092] This embodiment describes the actual system implementation of the periodogram-based wireless microphone detection method. The actual system architecture 1 is attached Figure 5 As shown: the signal received by the antenna module 101 is sent to a low-noise amplifier (LNA) 102, and the amplified signal passes through a band-pass filter (BPF) 103, whose bandwidth can be adjusted according to actual needs, and then the filtered signal is sent to Orthogonal down-converter 105, using the frequency points in the selected TV band as the frequency of the local oscillator 104 to perform quadrature down-conversion processing on the signal, and then obtain IQ two-way signals, and then let the two-way signals pass through low-pass filtering with a certain bandwidth (LPF) 106 and intermediate frequency amplifier (IF Amp) 107 and send the IQ two-way signal that puts out in the analog-to-digital converter (ADC) 109, and finally send the two-way digital signal that ADC109 comes out in t...

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Abstract

A periodogram-based wireless microphone signal detection method, which solves the problem of incapability of distinguishing wireless microphone signal from narrow-band interference, includes: acquiring a time-domain digital signal for detection through antenna module, RF front-end module, ADC module and time-domain signal preprocessing module; and performing detection of microphone signal in frequency domain, that is, calculating an average value of periodogram of M segments of the time-domain digital signal for detection, shifting the average value to obtain a shifted vector, estimating a mean and a covariance matrix of the shifted vector, locating a maximum point of the vector, and taking several points on each side of the point as a center to form an information vector; calculating a decision statistical quantity of the information vector using the decision theory, simulating or calculating a threshold in a predefined method, and deciding the signal is narrow-band interference if the decision statistical quantity is less than the threshold, otherwise the signal is wireless microphone signal.

Description

technical field [0001] The invention belongs to the technical field of cognitive radio, and is specifically applied to the detection of low-power wireless microphone signals in blank digital TV band perception. Background technique [0002] The US Federal Communications Commission (FCC) stipulates that TV white space sensing devices must be able to detect wireless microphone signals with a signal strength of -107dbm. Under such a low signal strength, the narrow-band interference caused by stray radiation, leakage, intermodulation, etc. is very similar to the microphone signal, and the existing detection methods do not distinguish the narrow-band interference from the wireless microphone signal, resulting in extremely high false alarm rate, which has led to a sharp decline in the number of available TV white space. Contents of the invention [0003] The present invention provides a wireless microphone signal detection method based on a periodogram, which is used to solve t...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H04B17/00H04R3/00
CPCH04B17/005H04R29/004H04B17/336H04B17/345H04R2420/07
Inventor 张韬韬张文逸孙欢欢
Owner UNIV OF SCI & TECH OF CHINA