Performance comparison of multichannel energy detector output processing methods

Lehtomäki, Janne

doi:10.1109/isspa.2003.1224690

Cited by 6 publications

References 10 publications

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Detection of frequency hopping signals with a sweeping channelized radiometer

Lehtomäki

Juntti

Saarnisaari

Conference Record of the Thirty-Eighth Asilomar Conference on Signals, Systems and Computers, 2004.

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The paper presents new performance analysis of a frequency sweeping channelized radiometer when the signal to be detected is a frequency hopping signal. Often technology limits the instantaneous bandwidth that can be used. When frequency sweeping (search strategy) is used, the center (carrier) frequency of the receiver is changed rapidly to increase probability of intercept (POI). Conventional logical OR, sum and maximum based methods are used to combine the channelized radiometer outputs. Exact results are derived for the sum based channelized radiometer. An accurate approximation of the performance of the sweeping maximum based channelized radiometer is presented. Numerical results show that although sweeping increases POI, the final probability of detection is not increased if the number of hops observed is large.

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Detection of frequency hopping signals with a sweeping channelized radiometer

Lehtomäki

Juntti

Saarnisaari

Conference Record of the Thirty-Eighth Asilomar Conference on Signals, Systems and Computers, 2004.

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Modeling time-varying aggregate interference from cognitive radios and implications on primary exclusive zone design

Ali

Mehta

2013

2013 IEEE Global Communications Conference (GLOBECOM)

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Comparison of quantized power-law based intercept receivers

Koivu¹,

Saarnisaari²,

Juntti³

IEEE MILCOM 2004. Military Communications Conference, 2004.

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The signal and threshold quantization and noise level estimation eflects on the pe@omance of two power-law detectors are studied. The other detector is the conventional total-power radiometer whereas the other peflorms better if the signal to be detected is narrowband. The goal is to define the suficient number of quantization bits and noise samples to maintain an acceptable pelformance when the noise level is estimated from the discretized samples. The threshold is calcu1;ltecl using a Cornish-Fischer approximation. We study also the impacts of the dynamic range. The simulations illustrate that the selection of the dynamic range and the noise estimate aflect the perfwmance enormously. If the dynamic range is correctly set, the adequate number of quantization bits is 4. A too narrow dynamic range causes noise saturation, which decreases the false alarm probubilizy drastically. This is due to changed statistic, i.e., the noise becomes non-Gaussian. The performance degradation cannot be compensated for by increasing the number of quantization bits and noise estimation samples. The suflcient number of noise level estimation samples is about 1000.

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Performance comparison of multichannel energy detector output processing methods

Cited by 6 publications

References 10 publications

Detection of frequency hopping signals with a sweeping channelized radiometer

Detection of frequency hopping signals with a sweeping channelized radiometer

Modeling time-varying aggregate interference from cognitive radios and implications on primary exclusive zone design

Comparison of quantized power-law based intercept receivers

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