Kernel Recursive Least Squares Algorithm for Transmitter-Induced Self-Interference Cancellation

In order to enable frequency-division duplex operation, radio frequency transceivers usually employ a spectral isolation between transmitter and receiver. Due to nonidealities of the used duplexer filters, the transmit signal leaks into the receive path. Although operating on different frequency ban...

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Veröffentlicht in:IEEE Vehicular Technology Conference S. 1 - 5
Hauptverfasser: Auer, C., Paireder, T., Huemer, M.
Format: Tagungsbericht
Sprache:Englisch
Veröffentlicht: IEEE 01.04.2021
Schlagworte:
Harmonic analysis
Interference cancellation
Intermodulation distortion
kernel adaptive filtering
kernel recursive least squares algorithm
LTE
mobile transceiver
Radio transmitters
Receivers
Transceivers
Tx harmonics
Vehicular and wireless technologies
ISSN:2577-2465
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Zusammenfassung:In order to enable frequency-division duplex operation, radio frequency transceivers usually employ a spectral isolation between transmitter and receiver. Due to nonidealities of the used duplexer filters, the transmit signal leaks into the receive path. Although operating on different frequency bands, nonlinear effects in the transceiver may lead to self-interferences with possibly high power levels. One approach to restore the receiver signal-to-noise ratio in these cases is to apply a digital cancellation of the interference. If perfect model knowledge is available, particularly tailored algorithms can be used for interference cancellation. In this work, we apply a kernel-based universal estimation algorithm, in particular the kernel recursive least squares (KRLS) algorithm, to cancel two different nonlinear interference effects. The transmitter-induced harmonics are explained and studied in detail, while the receiver-induced intermodulation distortion has been treated in a second paper explicitly. The KRLS algorithm is able to cancel both, while two different model-based and particularly tailored methods would be needed to address the two fundamentally different interference effects.
ISSN:2577-2465
DOI:10.1109/VTC2021-Spring51267.2021.9449025