Device and method for removal of ambient noise signal from a photoplethysmograph

The invention claimed is: 1. A method for removal of ambient noise signal from an optical measurement, the method comprising: obtaining a first signal waveform based on detecting light based on a first light illumination; obtaining a second signal waveform based on detecting light based on a second light illumination; tuning the first light and second light illumination such that the maximum amplitudes of the first and second signal waveforms are maximised and within a predetermined saturation range, such that ambient light interference for the first and second signal waveforms is reduced; obtaining a third signal waveform based on detecting ambient light; obtaining respective maximum and minimum values of the first and the second signal waveforms, said obtaining respective maximum and minimum values being performed at a plurality of identified sample points; and deriving signal values of the first and second signal waveforms with the removal of ambient noise using the third signal waveform and by using the maximum and minimum values of the first and the second signal waveforms. 2. The method of claim 1 , wherein the step of obtaining the third signal waveform is performed with both the first and second light illumination switched off. 3. The method of claim 1 , wherein the first light illumination is based on a red light source and the second light illumination is based on an infra-red light source. 4. The method of claim 1 , further comprising applying one or more optical filters to reduce ambient light interference. 5. The method of claim 1 , further comprising toggling between switching on the first light illumination and switching on the second light illumination in a toggling sequence to obtain the first signal waveform and the second signal waveform. 6. The method of claim 5 , further comprising switching off both the first light illumination and the second light illumination before or after the toggling sequence for obtaining the third signal waveform in an ambient light detection period. 7. The method of claim 5 , further comprising switching off both the first light illumination and the second light illumination in a time period Δt during the toggling sequence to reduce crosstalk interference. 8. The method of claim 1 , wherein said using the third signal waveform and using the maximum and minimum values of the first and the second signal waveforms comprises obtaining alternating-current (AC) values of the first, second and third signal waveforms based on the respective maximum and minimum values of the first and second signal waveforms at the plurality of identified sample points and maximum and minimum values of the third signal waveform. 9. The method of claim 8 , wherein direct-current (DC) and the AC values of the third signal waveform are average values obtained over a plurality of cycles of different ambient light detection periods and for the average AC values of the third signal waveform, further based on the maximum and minimum values of the third signal waveform. 10. The method of claim 9 , further comprising determining a ratio R based on using the DC and AC values of the first and second waveforms and the average values obtained for the third signal waveform, wherein the ratio R is usable for referencing a lookup table. 11. The method of claim 1 , wherein said using the third signal waveform and using the maximum and minimum values of the first and the second signal waveforms comprises obtaining alternating-current (AC) values of the first and the second signal waveforms based on the respective maximum and minimum values obtained in one cycle at the plurality of identified sample points. 12. The method of claim 11 , wherein direct-current (DC) and AC values of the third signal waveform are average values obtained over a plurality of cycles of different toggling sequences and ambient light detection periods. 13. The method of claim 12 , further comprising determining a ratio R for the one cycle based on using DC and the AC values of the first and the second signal waveforms and the average values obtained from the third signal waveform, wherein the ratio R is usable for referencing a lookup table. 14. The method of claim 13 , further comprising determining an average R value based on using the ratio R for the plurality of cycles, wherein the average R value is usable for referencing a lookup table. 15. The method of claim 1 , wherein the light detected is reflected light. 16. A device for removal of ambient noise signal from an optical measurement, the device comprising: a coupling member for receiving a first signal waveform obtained based on detecting light based on a first light illumination, a second signal waveform obtained based on detecting light based on a second light illumination, and a third signal waveform obtained based on detecting ambient light, the coupling member suitable for coupling to an optical measurement device; and a processor module for obtaining respective maximum and minimum values of the first and the second signal waveforms, said obtaining respective maximum and minimum values being performed at a plurality of identified sample points, and the processor being arranged to derive signal values of the first and second signal waveforms with the removal of ambient noise using the third signal waveform and by using the maximum and minimum values of the first and the second signal waveforms, wherein the first and second light illumination are switched to a maximum intensity such that the maximum amplitudes of the first and second signal waveforms are maximised and within a predetermined saturation range, such that ambient light interference for the first and second signal waveforms is reduced. 17. The device of claim 16 , wherein the third signal waveform is obtained with both the first and second light illumination switched off. 18. The device of claim 16 , wherein the first light illumination is based on a red light source and the second light illumination is based on an infra-red light source. 19. The device of claim 16 , wherein the optical measurement device is applied with one or more optical filters to reduce ambient light interference. 20. The device of claim 16 , wherein the first signal waveform and the second signal waveform are obtained based on toggling between switching on the first light illumination and switching on the second light illumination in a toggling sequence. 21. The device of claim 20 , wherein the third signal waveform is obtained based on switching off both the first light illumination and the second light illumination before or after the toggling sequence in an ambient light detection period. 22. The device of claim 20 , wherein both the first light illumination and the second light illumination are arranged to be switched off in a time period At during the toggle sequence to reduce crosstalk interference. 23. The device of claim 16 , for the using the third signal waveform and using the maximum and minimum values of the first and the second signal waveforms, the device comprises the processor further arranged to obtain alternating-current (AC) values of the first, second and third signal waveforms based on the respective maximum and minimum values of the first and second signal waveforms at the plurality of identified sample points, and maximum and minimum values of the third signal waveform. 24. The device of claim 23 , wherein direct-current (DC) and the AC values