Remote sensing device and monitoring apparatus

The invention claimed is: 1. A remote sensor device comprising: at least one sensor that produces an output signal indicative of the value of a measurand; a reflective display that is positioned such that the reflective display is visible along a line of sight from a remote location, the reflective display comprising at least two retro-reflective reflector assemblies, each of which is arranged to reflect a variable fraction of radiation incident upon the reflective assembly back towards a source in response to respective control signals applied to the reflector assemblies, and in which each of the reflector assemblies preferentially reflects one wavelength of the incident radiation or preferentially removes at least one wavelength of the incident radiation that is not preferentially reflected or removed by the other reflector assembly, and further comprising modulating means for modulating the control signals applied to the reflector assemblies as a function of the value of the output signal from the sensor so as to modulate fractions of incident light reflected by the display. 2. The remote sensor device according to claim 1 in which each of the reflector assemblies of the display comprises two or more individual reflector devices, each reflector device being controllable by the control signals between a first state in which the reflector device reflects light back along a first path and a second state in which a smaller proportion of incident radiation is reflected back along the first path. 3. The remote sensor device according to claim 2 in which each of the reflector devices comprises a mirror that in use is altered between the first state and the second state by a respective transducer which in response to a control signal moves the mirror between two positions, a first position corresponding to the first state and a second position corresponding to the second state. 4. The remote sensor device according to claim 3 in which each of the reflector devices comprises a micro-electrical mechanical device in which the mirror is secured to a transducer comprising a deformable substrate, the substrate deforming when a control signal is applied to the substrate to deform or move the reflector device. 5. The remote sensor device according to claim 4 in which each reflector device includes a shutter which in the first state permits incident radiation to be retro-reflected from the reflector device and in the second state blocks light from being retro-reflected by the reflector device. 6. The remote sensor device according to claim 1 in which each reflector assembly includes a filter, each filter having a different wavelength response, the wavelength response defining the preferential wavelength that each reflector assembly preferentially reflects or removes, and in which optionally the display is retro-reflective. 7. The remote sensor device according to claim 1 in which the modulating means is adapted to modulate the control signals applied to the reflector assemblies as a function of a code representing an identity of the remote sensor device. 8. The remote sensor device according to claim 1 in which the control signals cause the display to encode the output signal and/or the identity of the device using amplitude modulation of retro-reflected fractions of incident radiation. 9. The remote sensor device according to claim 8 in which the amplitude modulation applied by the modulation means comprises varying the fraction of incident radiation retro-reflected from one or more or all of the reflector assemblies so that the relative fractions of radiation retro-reflected by each of the assemblies at a given moment in time encodes the output signal or encodes a value indicative of an identity of the remote sensor device. 10. The remote sensor device according to claim 9 in which each reflector assembly preferentially reflects a visible wavelength of incident light and in which the amplitude modulation varies the perceived colour of the overall display to encode the output signal or to encode a value indicative of an identity of the remote sensor device. 11. The remote sensor device according to claim 1 in which the modulation means is arranged to generate control signals that cause the reflector assemblies to be periodically switched into and out of a reference state in which the fractions reflected by the reflector assemblies has a defined pattern. 12. The remote sensor device according to claim 11 in which the defined pattern of fractions is indicative of the identity of the remote sensor device. 13. The remote sensor device according to claim 11 in which the modulation means generates control signals that vary the timing of the switching into, or out of, or both into and out of the reference state, the timing encoding information in the display. 14. The remote sensor device according to claim 13 in which the modulation of the switching between states comprises a pulse width modulation encoding scheme. 15. The remote sensor device according to claim 14 in which the information is encoded as a function of a mark space ratio of the two states encoding information. 16. The remote sensor device according to claim 14 in which the pulse width modulation encodes the output signal value or encodes a unique identity value assigned to the device in the display. 17. The remote sensor device according to claim 11 in which the defined pattern in the reference state corresponds to a pattern in which all of the reflector assemblies reflect a maximum fraction of incident radiation that the reflector assemblies are able to reflect, or reflect a minimum fraction of incident radiation. 18. The remote sensor device according to claim 1 that further includes a processing circuit which includes a code generator which receives as an input the output signal from the sensor and produces at an output a coded signal that is used by the modulating means to modulate the fractions of incident radiation reflected the assemblies of the reflective display. 19. The remote sensor device according to claim 18 that further includes a battery that powers the sensor, a battery that powers the processing circuit and a battery that powers the means for modulating the display. 20. A monitoring apparatus configured for use in combination with the remote sensor device of claim 1 , the monitoring apparatus comprising: a detector responsive to incoming radiation across a range of wavebands that has been reflected from a reflective display of the remote sensing device, a processor which receives an output signal from the detector and which processes the output signal to identify the presence or absence of a peak or trough within each of a set of defined regions of wavelengths within the band of wavelengths, the peaks or troughs corresponding with the preferentially reflected or removed fractions of incident light upon the remote sensor device, and in which the processor is adapted to determine the value of an encoded signal from the sensor device from the fractions of incident radiation reflected by each of the reflector assemblies of the remote sensor device. 21. The monitoring device according to claim 20 that includes a source of radiation which emits radiation across the band of wavebands preferentially reflected by the remote sensor device. 22. A method of communication between a remote sensing device and a monitoring device comprising: providing a monitoring device having an optical detector, and providing a re