Sara Catteau scite author profile

Sara Catteau

5Publications

31Citation Statements Received

156Citation Statements Given

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Reverberation Chamber Metrology for Wireless Internet of Things Devices: Flexibility in Form Factor, Rigor in Test

Hubrechsen

Remley

Catteau³

2022

IEEE Microwave

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Design and Simulation of a 28 GHz Plane Wave Generator for NR Measurements

Catteau¹,

Ivashina

Rehammar³

2020

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Practical Correlation-Matrix Approaches for Standardized Testing of Wireless Devices in Reverberation Chambers

Remley

Catteau²,

Hussain

et al. 2023

IEEE Open J. Antennas Propag.

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We extend the autocorrelation-based approaches currently used in standards to full correlationmatrix-based approaches in order to identify correlation between both spatially adjacent and non-adjacent samples in reverberation-chamber measurements. We employ a scalar metric that allows users to identify the number of effectively uncorrelated samples in new types of stirring sequences. To make these approaches practical and enhance their accuracy, we implement a thresholding technique that retains correlation related to important aspects of chamber configuration such as loading and undermoded conditions. We develop a method to propagate uncertainty in the complex correlation coefficients through to the number of effective samples for a given reverberation-chamber set-up by use of a bootstrap technique that is accurate even for highly skewed distributions of correlation coefficients. We further apply this method in a sensitivity study regarding the choice of threshold value. Agreement with existing approaches in determining the number of effectively uncorrelated samples is presented for a measurement example where spatially adjacent samples are utilized. Examples are then illustrated for non-spatially-adjacent correlated samples at microwave and millimeter-wave frequencies.

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A Fast Procedure for Total Isotropic Sensitivity Measurements of Cellular IoT Devices in Reverberation Chambers

Nogueira

Remley

Catteau³

et al. 2022

IEEE Trans. Instrum. Meas.

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We present a method that allows a fast evaluation of total isotropic sensitivity with the use of continuous-mode stirring in a reverberation chamber. A limited number of standard stepped-mode measurements are taken to calibrate the continuous-mode measurements by computing the offset between the measured sensitivity level of the device and the device-reported reference signal received power. A comparison of the results from the method proposed here and the standard stepped-mode approach illustrates that the measurement results of the fast approach can be within 0.2 dB to 0.5 dB of the standard method and allows for a test time reduction of up to 90 %.

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On the Feasibility of the Three-Antenna Technique for Estimating Antenna Radiation Efficiency in Bluetest Reverberation Test Systems

Hosseinzadegan¹,

Kristoffersen²,

Svedjenas³

et al. 2022

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Sara Catteau

Reverberation Chamber Metrology for Wireless Internet of Things Devices: Flexibility in Form Factor, Rigor in Test

Design and Simulation of a 28 GHz Plane Wave Generator for NR Measurements

Practical Correlation-Matrix Approaches for Standardized Testing of Wireless Devices in Reverberation Chambers

A Fast Procedure for Total Isotropic Sensitivity Measurements of Cellular IoT Devices in Reverberation Chambers

On the Feasibility of the Three-Antenna Technique for Estimating Antenna Radiation Efficiency in Bluetest Reverberation Test Systems

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