Add to ORKGOn the basis of the use of the generalized likelihood ratio test (GLRT) and model order selection techniques, an improved event detector is proposed herein by incorporating the spatial correlation existing in measurements coming from neighbor-ing wireless sensors. Such a spatial dependence is proposed to be extracted through the use of the so-called signature vec-tors. These vectors incorporate the a-priori knowledge of the effect that the event will have on the sensor field. For the proposed detector, analytical and empirical results are pro-vided, showing a significant gain in performance compared to traditional approaches. 1
We establish the generalized likelihood ratio (GLR) test for a Gaussian signal of known power spect...
We establish the generalized likelihood ratio (GLR) test for a Gaussian signal of known power spectr...
International audience— This paper addresses the behaviour of a classical multi-antenna GLRT test th...
In dense Wireless Sensor Networks (WSN) consecutive mea-surements obtained by sensors are spatio-tem...
In collaborative spectrum sensing, spatial correlation in the measurements obtained by sensors can b...
Detecting the presence of one or multiple signals with unknown spatial signature can be addressed by...
The problem of correlation detection of multivariate Gaussian observations is considered. The proble...
Multi-antenna spectrum sensing by exploiting spatio-temporal correlation Sadiq Ali1,2*, David Ramíre...
peer reviewedThis paper addresses the problem of detecting fluctuating targets using distributed mmW...
The objective of this paper is to determine the potentialities of a detection scheme within the fram...
Multiple-antenna detection of a Gaussian signal with spatial rank one in temporally white Gaussian n...
Multiple-antenna detection of a Gaussian signal with spatial rank one in temporally white Gaussian n...
Spectrum sensing with spatial signatures in the presence of noise uncertainty and shadowing Sadiq Al...
We establish the generalized likelihood ratio (GLR) test for a Gaussian signal of known power spectr...
In this work the characteristics of spatial signal detec¬tion from an antenna array in various sampl...
We establish the generalized likelihood ratio (GLR) test for a Gaussian signal of known power spect...
We establish the generalized likelihood ratio (GLR) test for a Gaussian signal of known power spectr...
International audience— This paper addresses the behaviour of a classical multi-antenna GLRT test th...
In dense Wireless Sensor Networks (WSN) consecutive mea-surements obtained by sensors are spatio-tem...
In collaborative spectrum sensing, spatial correlation in the measurements obtained by sensors can b...
Detecting the presence of one or multiple signals with unknown spatial signature can be addressed by...
The problem of correlation detection of multivariate Gaussian observations is considered. The proble...
Multi-antenna spectrum sensing by exploiting spatio-temporal correlation Sadiq Ali1,2*, David Ramíre...
peer reviewedThis paper addresses the problem of detecting fluctuating targets using distributed mmW...
The objective of this paper is to determine the potentialities of a detection scheme within the fram...
Multiple-antenna detection of a Gaussian signal with spatial rank one in temporally white Gaussian n...
Multiple-antenna detection of a Gaussian signal with spatial rank one in temporally white Gaussian n...
Spectrum sensing with spatial signatures in the presence of noise uncertainty and shadowing Sadiq Al...
We establish the generalized likelihood ratio (GLR) test for a Gaussian signal of known power spectr...
In this work the characteristics of spatial signal detec¬tion from an antenna array in various sampl...
We establish the generalized likelihood ratio (GLR) test for a Gaussian signal of known power spect...
We establish the generalized likelihood ratio (GLR) test for a Gaussian signal of known power spectr...
International audience— This paper addresses the behaviour of a classical multi-antenna GLRT test th...