Optical sensor system

1 . An optical sensor system comprising: two or more optical sensors; two or more receivers; and an optical de-multiplexing system, wherein each of the optical sensors comprises a fibre grating with a different wavelength characteristic, each of the receivers comprises a slope filter and a light detector, each of the receivers is associated with a respective one of the optical sensors, and the optical de-multiplexing system is arranged to route light from each of the optical sensors to one of the receivers associated with the optical sensor based on a wavelength of the light, wherein the optical de-multiplexing system comprises two or more drop de-multiplexers arranged in series, and each of the drop de-multiplexers is tuned to a wavelength characteristic of an associated one of the optical sensors and arranged to route light with the wavelength characteristic to the receiver associated with the optical sensor. 2 . The optical sensor system according to claim 1 , wherein the optical de-multiplexing system comprises three or more of the drop de-multiplexers arranged in series in a chain, and each of the drop de-multiplexers is tuned to a wavelength characteristic of an associated one of the optical sensors and arranged to route light with the wavelength characteristic to the receiver associated with the optical sensor. 3 . The optical sensor system according to claim 1 , wherein the number of optical sensors is the same as the number of drop de-multiplexers. 4 . The optical sensor system according to claim 1 , wherein each of the drop de-multiplexers comprises a de-multiplexer fibre grating tuned to the wavelength characteristic of the associated one of the optical sensors. 5 . The optical sensor system according to claim 1 , wherein each of the drop de-multiplexers comprises a de-multiplexer fibre grating tuned to the wavelength characteristic of the associated one of the optical sensors and arranged to reflect light with the wavelength characteristic. 6 . The optical sensor system according to claim 4 , wherein each of the drop de-multiplexers comprises a circulator with a first port arranged to receive light from the optical sensors, a second port coupled to the associated one of the receivers, and a third port coupled to the de-multiplexer fibre grating. 7 . The optical sensor system according to claim 1 , wherein each of the receivers comprises: a reference light sensor, and a beam splitter which is arranged to split light routed to the receiver into a reference beam and a measurement beam, direct the reference beam onto the reference light sensor of the receiver, and direct the measurement beam onto the light detector of the receiver via the slope filter. 8 . An optical sensor system comprising: two or more optical sensors; two or more receivers; and an optical de-multiplexing system, wherein each optical sensor comprises a fibre grating with a different wavelength characteristic, each of the receivers comprises a slope filter and a light detector, each of the receivers is associated with a respective one of the optical sensors, and the optical de-multiplexing system is arranged to route light from each of the optical sensors to the receiver associated with the optical sensor based on a wavelength of the light, wherein each of the receivers comprises: a reference light sensor, and a beam splitter which is arranged to split light routed to the receiver into a reference beam and a measurement beam, direct the reference beam onto the reference light sensor of the receiver, and direct the measurement beam onto the light detector of that receiver via the respective slope filter. 9 . The optical sensor system according to claim 8 , wherein each receiver further comprises compensation circuitry which is arranged to generate a compensated output based on an output of the light detector of that receiver and an output of the reference light sensor of the receiver. 10 . The optical sensor system according to claim 8 , wherein the optical de-multiplexing system comprises two or more drop de-multiplexers arranged in series, and each of the drop de-multiplexers is tuned to the wavelength characteristic of an associated one of the optical sensors and arranged to route light with that wavelength characteristic to the receiver associated with the optical sensor. 11 . The optical sensor system according claim 8 , wherein each slope filter is tuned to the wavelength characteristic of a respective one of the optical sensors and the slope filters are tuned to different wavelength characteristics. 12 . An optical sensor system comprising: two or more optical sensors; two or more receivers; and an optical de-multiplexing system, wherein each of the optical sensors comprises a fibre grating with a different wavelength characteristic, each of the receivers comprises a slope filter and a light detector, each of the receiver is associated with a respective one of the optical sensors, and the optical de-multiplexing system is arranged to route light from each of the optical sensors to the receiver associated with the optical sensor based on a wavelength of the light, wherein each of the slope filters is tuned to the wavelength characteristic of a respective one of the optical sensors and the slope filters are tuned to different wavelength characteristics. 13 . The optical sensor system according to claim 12 , wherein each of the slope filters attenuates light based on a wavelength of the light and a wavelength gain function. 14 . The optical sensor system according to claim 12 , wherein each of the slope filters attenuates light based on a wavelength of the light and a wavelength gain function, and the wavelength gain functions have different passbands. 15 . The optical sensor system according to claim 12 , further comprising a light source arranged to generate light; and an interrogation optical fibre arranged to transmit the light from the light source to the optical sensors, wherein the optical sensors are connected in series to the light source. 16 . The optical sensor system according to claim 15 , wherein the light source is arranged to continuously generate light with a substantially constant intensity, and the interrogation optical fibre is arranged to continuously transmit the light with a substantially constant intensity from the light source to the optical sensors. 17 . The optical sensor system according to claim 12 , wherein each of the receivers generates an analogue output. 18 . An aircraft comprising the optical sensor system according to claim 12 . 19 . A control system comprising: a motor or actuator; the optical sensor system according to claim 12 , arranged to monitor or measure the motor or actuator and generate a feedback signal; and a controller arranged to control operation of the motor or actuator based on the feedback signal.