Radar-triggered road friction estimation

The invention claimed is: 1 . A computer implemented method for determining a road friction condition associated with at least one wheel on a heavy-duty vehicle, the method comprising transmitting a radar signal by at least one polarimetric radar transceiver towards a surface supporting the vehicle, and receiving backscatter from the transmitted radar signal, where the radar signal comprises a first polarization component and a second polarization component different from the first polarization component, processing the received backscatter by a processing device to determine a friction parameter related to the road friction condition of the surface, monitoring the friction parameter over time to detect change in the friction parameter, and in case change in the friction parameter is detected, triggering friction estimation by a secondary physical friction estimation system. 2 . The computer implemented method according to claim 1 , where the secondary physical friction estimation system comprises generation of a steering pulse. 3 . The computer implemented method according to claim 1 , where the secondary physical friction estimation system comprises generation of a propulsion torque pulse. 4 . The computer implemented method according to claim 1 , where the secondary physical friction estimation system comprises generation of a brake torque pulse. 5 . The computer implemented method according to claim 3 , where the torque pulse is generated by an electric machine. 6 . The computer implemented method according to claim 4 , where the brake torque pulse is generated by an electromechanical brake device. 7 . The computer implemented method according to claim 1 , where the friction parameter comprises 2-port scattering parameters of the road surface at the first and second polarizations. 8 . The computer implemented method according to claim 1 , where the friction parameter is related to a scatter coherence matrix of the received backscatter. 9 . The computer implemented method according to claim 1 , where the friction parameter is related to a target entropy and/or a polarimetric pedestal of the backscatter radar signal. 10 . The computer implemented method according to claim 1 , comprising monitoring a normal force associated with one or more wheels on the vehicle over time to detect change in the normal force, and in case change in the normal is detected, triggering friction estimation by the secondary physical friction estimation system. 11 . The computer implemented method according to claim 1 , comprising determining a wheel force generating capability based on the friction estimation by the secondary physical friction estimation system. 12 . The computer implemented method according to claim 1 , comprising updating a tire model based on the friction estimation by the secondary physical friction estimation system. 13 . The computer implemented method according to claim 1 , comprising transmitting radar signals by a plurality of polarimetric radar transceivers towards the surface supporting the vehicle, and receiving backscatter from the transmitted radar signals, where each transmitted radar signal is associated with a respective wheel or group of wheels on the vehicle. 14 . A computer program product comprising program code for performing, when executed by processing circuitry, the method of claim 1 . 15 . A non-transitory computer-readable storage medium comprising instructions, which when executed by processing circuitry, cause the processing circuitry to perform the method of claim 1 . 16 . A road friction estimation system for a heavy-duty vehicle, comprising at least at least one polarimetric radar transceiver and a processing device configured to determine a road friction condition associated with at least one wheel on the heavy-duty vehicle, where the radar transceivers are polarimetric radar transceiver arranged to transmit respective radar signals towards a surface supporting the vehicle, and to receive backscatter from the transmitted radar signals, where the radar signals comprise respective first and second different polarization components, where the processing device is arranged to process the received backscatter to determine at least one friction parameter related to the road friction condition of the surface, where the processing device is arranged to monitor the friction parameter over time to detect change in the friction parameter, and in case change in the friction parameter is detected, trigger friction estimation by a secondary physical friction estimation system. 17 . A heavy-duty vehicle comprising a road friction estimation system according to claim 16 .