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Automotive Radar Waveform Parameters Randomisation for Interference Level Reduction

Fatemeh Norouzian, Anum Pirkani, Edward Hoare, Mikhail Cherniakov, Marina Gashinova

202021 citationsDOI

Abstract

With the rapid increase in the number of automotive radars on the road, interference becomes unavoidable. This paper analyses the effectiveness of dithering or randomization of FMCW modulation (applying random idle time jitter) on reducing interference. This analysis is undertaken for various interference scenarios and modelling-based results are compared. The results show that the efficiency of interference reduction by employing random idle time jitter strongly depend on the radar waveform parameters and the achievable reduction in interference level is in the range of 0 to 27 dB.

Topics & Concepts

WaveformJitterInterference (communication)Reduction (mathematics)Computer scienceDitherRadarElectronic engineeringAutomotive industryElectromagnetic interferenceMultipath interferenceRange (aeronautics)Modulation (music)EngineeringTelecommunicationsAcousticsMathematicsBandwidth (computing)PhysicsChannel (broadcasting)GeometryAerospace engineeringMultipath propagationRadar Systems and Signal ProcessingElectromagnetic Compatibility and MeasurementsPower Line Communications and Noise
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