System and method for acquisition of biopotential signals with motion artifact reduction

The invention claimed is: 1. A biopotential signal acquisition system comprising: a readout unit configured to receive an analogue biopotential signal and to extract, from that received analogue biopotential signal, a measured biopotential signal and a first reference signal; a reference signal processing unit configured to convert the first reference signal into a second reference signal based on a correlation between the measured biopotential signal and the first reference signal; and a digital filter unit configured to calculate a digital motion artifact estimate based on a digital version of the measured biopotential signal and the second reference signal, wherein the correlation between the measured biopotential signal and the first reference signal is estimated by calculating a correlation between the digital motion artifact estimate and the first reference signal. 2. The biopotential signal acquisition system according to claim 1 , wherein the correlation between the measured biopotential signal and the first reference signal is estimated by calculating the correlation between the digital motion artifact estimate and a digital version of the first reference signal. 3. The biopotential signal acquisition system according to claim 1 , wherein a polarity of the second reference signal is calculated based on the correlation between the measured biopotential signal and the first reference signal. 4. The biopotential signal acquisition system according to claim 3 , wherein the polarity of the second reference signal is the same or opposite to a polarity of the first reference signal depending on the correlation between the measured biopotential signal and the first reference signal. 5. The biopotential signal acquisition system according to claim 1 , wherein the reference signal processing unit is implemented in an analogue domain part of the system. 6. The biopotential signal acquisition system according to claim 1 , wherein the reference signal processing unit is implemented in a digital domain part of the system. 7. The biopotential signal acquisition system according to claim 1 , wherein the digital filter unit implements or runs a digital adaptive filter. 8. The biopotential signal acquisition system according to claim 7 , wherein the digital adaptive filter is a Least Mean Square (LMS) filter. 9. The biopotential signal acquisition system according to claim 1 , wherein the first reference signal is an electrode-tissue impedance signal. 10. The biopotential signal acquisition system according to claim 1 , wherein the analogue biopotential signal is an ECG signal. 11. An electronic device comprising a biopotential signal acquisition system according to claim 1 . 12. A method for acquisition of biopotential signals, comprising: extracting, from an analogue biopotential signal, a measured biopotential signal and a first reference signal; converting the first reference signal into a second reference signal based on a correlation between the measured biopotential signal and the first reference signal; calculating a polarity of the second reference signal based on the correlation between the measured biopotential signal and the first reference signal; and calculating a digital motion artifact estimate based on a digital version of the measured biopotential signal and the second reference signal. 13. The method for acquisition of biopotential signals of claim 12 , herein the first reference signal is an electrode-tissue impedance signal and the analogue biopotential signal is an ECG signal. 14. The method for acquisition of biopotential signals of claim 12 , wherein the polarity of the second reference signal is the same or opposite to a polarity of the first reference signal depending on the correlation between the measured biopotential signal and the first reference signal. 15. The method for acquisition of biopotential signals of claim 12 , further comprising: calculating a correlation between the digital motion artifact estimate and the first reference signal; and estimating the correlation between the measured biopotential signal and the first reference signal based on the calculated correlation between the digital motion artifact estimate and the first reference signal. 16. A biopotential signal acquisition system comprising: a readout unit configured to receive an analogue biopotential signal and to extract, from the received analogue biopotential signal, a measured biopotential signal and a first reference signal; a reference signal processing unit configured to convert the first reference signal into a second reference signal based on a correlation between the measured biopotential signal and the first reference signal, and to calculate a polarity of the second reference signal based on the correlation between the measured biopotential signal and the first reference signal; and a digital filter unit configured to calculate a digital motion artifact estimate based on the measured biopotential signal and the second reference signal. 17. The biopotential signal acquisition system according to claim 16 , wherein the polarity of the second reference signal is the same or opposite to a polarity of the first reference signal depending on the correlation between the measured biopotential signal and the first reference signal. 18. The biopotential signal acquisition system according to claim 16 , wherein the reference signal processing unit is implemented in a digital domain part of the system. 19. The biopotential signal acquisition system according to claim 16 , wherein the digital filter unit implements or runs a digital adaptive filter. 20. The biopotential signal acquisition system according to claim 16 , wherein the first reference signal is an electrode-tissue impedance signal, and the analogue biopotential signal is an ECG signal.