Danilo Orlando scite author profile

In this paper, we derive and assess decision schemes to discriminate, resorting to an array of sensors, between the 0 hypothesis that data under test contain disturbance only (i.e., noise plus interference) and the 1 hypothesis that they also contain signal components along a direction which is a priori unknown but constrained to belong to a given subspace of the observables. The disturbance is modeled in terms of complex normal random vectors plus deterministic interference assumed to belong to a known subspace. We assume that a set of noise-only (secondary) data is available, which possess the same statistical characterization of noise in the cells under test. At the design stage, we resort to either the plain generalized-likelihood ratio test (GLRT) or the two-step GLRT-based design procedure. The performance analysis, conducted resorting to simulated data, shows that the one-step GLRT performs better than the detector relying on the two-step design procedure when the number of secondary data is comparable to the number of sensors; moreover, it outperforms a one-step GLRT-based subspace detector when the dimension of the signal subspace is sufficiently high.

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A Unifying Framework for Adaptive Radar Detection in Homogeneous Plus Structured Interference— Part II: Detectors Design

Ciuonzo

Maio

Orlando

2016

IEEE Trans. Signal Process.

134

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Danilo Orlando

Advanced Radar Detection Schemes Under Mismatched Signal Models

Track-Before-Detect Algorithms for Targets with Kinematic Constraints

Diffuse Multipath Exploitation for Adaptive Radar Detection

GLRT-Based Direction Detectors in Homogeneous Noise and Subspace Interference

A Unifying Framework for Adaptive Radar Detection in Homogeneous Plus Structured Interference— Part II: Detectors Design

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