A sensor system and method which makes use of multiple ppg sensors

1 . A sensor system, comprising: a first PPG sensor having a first light source a first optical detector and a first processor with a first clock domain; a second PPG sensor having a second light source a second optical detector and a second processor with a second clock domain; a docking station, which provides a first optical coupling between the first light source and the first optical detector and a second optical coupling between the second light source and the second optical detector; a monitoring system adapted to monitor detection of first and second optical calibration signals, wherein the first optical calibration signal is adapted to be detected by the first optical detector of the first PPG sensor and is generated by the first optical coupling and the second optical calibration signal is adapted to be detected by the second optical detector of the second PPG sensor and is generated by the second optical coupling, wherein the monitoring system is adapted to perform time calibration between the first and second clock domains of the first and second PPG sensors by determining a time offset between the detected signals. 2 . A system as claimed in claim 1 , wherein the first and second optical couplings have an optical reflectance or transmittance function with known absolute timing relationships. 3 . A system as claimed in claim 2 , wherein the first and second optical couplings each comprise a reflector with a reflection characteristic which is varied over time. 4 . A system as claimed in claim 3 , wherein the reflectors comprise a display device such as an LCD display. 5 . A system as claimed in claim 4 , wherein the reflectors together form a common display device. 6 . A system as claimed in claim 2 , wherein the first and second optical couplings each comprise structure with a transmission characteristic which is adapted to be controlled over time. 7 . A pulse delay measurement device, comprising: a sensor system as claimed in any preceding claim; and a controller for obtaining PPG signals from the first and second PPG sensors, and deriving a pulse delay using the time calibration. 8 . A sensor calibration method for calibrating first and second PPG sensors, the first PPG sensor having a first light source a first optical detector and a first processor with a first clock domain and the second PPG sensor having a second light source a second optical detector and a second processor with a second clock domain, the method comprising: placing the first and second PPG sensors on a docking station, which provides a first optical coupling between the first light source and the first optical detector and a second optical coupling between the second light source and the second optical detector, generating a first optical calibration signal using the optical coupling and generating a second optical calibration signal using the second optical coupling by controlling the first and second optical couplings with known absolute timing relationship; and performing time calibration between the first and second clock domains of the first and second PPG sensors by determining a time offset between detected signals at the first and second optical detectors. 9 . A pulse delay sensing method comprising: performing sensing calibration using the method as claimed in claim 8 ; and after the sensing calibration, obtaining PPG signals from the first and second PPG sensors, and deriving a pulse delay. 10 . A computer program product comprising computer program code means which is adapted, when run on a computer which forms part of the system of claim 1 .