Litcius/Paper detail

Autocorrelation Analysis and Near-Field Localization of the Radiating Sources With Cyclostationary Properties

Yury Kuznetsov, Andrey Baev, Maxim Konovalyuk, Anastasia Gorbunova, Johannes A. Russer

2020IEEE Transactions on Electromagnetic Compatibility18 citationsDOIOpen Access PDF

Abstract

Stochastic electromagnetic fields caused by the data transferring signals along the printed circuit boards are potentially harmful interference sources for modern digital electronic devices. The characterization of the near-field electromagnetic emissions from the electronic device in time domain was implemented by real-time digital oscilloscope in conjunction with the sequential scanning system of the near-field probes. Excluding of the periodic sample mean function reveals the hidden cyclostationarity of the data transferring process measured by the near-field scanning system. In this article, the quantitative autocorrelation analysis of the hidden cyclostationary properties of the random nonperiodic data sequences is presented. The time-domain evolution of the autocovariance cross sections estimated at each scanning point were exploited for spatial-time localization of the transmission line.

Topics & Concepts

Cyclostationary processAutocovarianceAutocorrelationTime domainElectronic engineeringOscilloscopeElectromagnetic interferenceField (mathematics)Transmission (telecommunications)Computer scienceAcousticsEngineeringTelecommunicationsPhysicsMathematicsFourier transformStatisticsComputer visionPure mathematicsQuantum mechanicsDetectorChannel (broadcasting)Electromagnetic Compatibility and MeasurementsIntegrated Circuits and Semiconductor Failure AnalysisElectromagnetic Compatibility and Noise Suppression
Autocorrelation Analysis and Near-Field Localization of the Radiating Sources With Cyclostationary Properties | Litcius