Fibre-optic communication system, a communication apparatus for the same, and a vehicle

The invention claimed is: 1. A communication apparatus for a fibre-optic communication system, the apparatus comprising: an optical coupler; an input port optically coupled to the optical coupler via a first waveguide, the input port being arranged to receive light; a modulator optically coupled to the optical coupler via a second waveguide, the modulator comprising a logic input and a fibre having a fibre Bragg grating (FBG) arranged to receive the light from the input port via the optical coupler, the modulator being operable to vary a strain force applied to the fibre according to a logic signal received at the logic input to modulate a wavelength of a modulated light signal reflected by the FBG back to the optical coupler; an output port optically coupled to the optical coupler via a third waveguide so as to receive the modulated light signal therefrom, the output port being operable to output the modulated light signal, and a transducer or mechanical actuator physically coupled to the fibre in the modulator and in communication with the logic input, and the transducer or the mechanical actuator is operable to generate the strain force based on the logic signal. 2. The apparatus of claim 1 , wherein the logic signal is an electrical signal, and wherein the transducer or the mechanical actuator is the transducer that is physically coupled to the fibre and in electrical communication with the logic input, wherein the transducer being operable to generate the strain force based on the electrical logic signal. 3. The apparatus of claim 2 , wherein the transducer is an electro-magneto-mechanical transducer or an electro-mechanical transducer. 4. The apparatus of claim 1 , wherein the logic signal is a mechanical signal, and wherein the transducer or the mechanical actuator is the mechanical actuator that is physically coupled to the fibre and in mechanical communication with the logic input, the mechanical actuator being operable to generate the strain force based on the mechanical logic signal. 5. The apparatus of claim 1 , further comprising a visual indicator in optical communication with the modulator so as to receive at least part of the modulated light signal therefrom, the visual indicator being operable to generate a visual indication based on the at least part of the modulated light signal, wherein the visual indicator comprises: a light port, or a photoluminescent material. 6. The apparatus of claim 5 , wherein the modulator further comprises: an extra optical coupler located within the second waveguide, and a semi-reflective reflector in optical communication with the extra optical coupler and the visual indicator, wherein the extra optical coupler is operable to transmit the light from the optical coupler to the FBG, to transmit the modulated light signal from the FBG to the semi-reflective reflector, and to transmit light reflected by the semi-reflective reflector to the optical coupler, wherein the semi-reflective reflector is operable to transmit a first portion of the modulated light signal to the visual indicator and to reflect a remaining portion of the modulated light signal to the extra optical coupler. 7. The apparatus of claim 6 , further comprising an optical filter positioned in an optical path between the semi-reflective reflector and the visual indicator, the optical filter being operable to transmit light to, or block light from, the visual indicator based on a wavelength of the light. 8. The apparatus of claim 1 , wherein the modulator further comprises a light absorption element optically coupled to the fibre so as to absorb light transmitted by the FBG. 9. The apparatus of claim 1 , wherein the logic signal is a binary signal and the modulator is configured to set the strain force to either one of two different values such that the wavelength of the modulated light signal is set to either one of two different wavebands. 10. The apparatus of claim 1 , further comprising: an additional input port, an additional modulator, an additional optical coupler, and an additional output port; the additional input port being optically coupled to the additional optical coupler via a fourth waveguide, the additional input port being arranged to receive the light; the additional modulator being optically coupled to the additional optical coupler via a fifth waveguide, the additional modulator comprising an additional logic input and an additional fibre having an additional FBG arranged to receive the light from the additional input port via the additional optical coupler, the additional modulator being operable to vary a strain force applied to the additional fibre according to a logic signal received at the additional logic input so as to modulate a wavelength of an additional modulated light signal reflected by the additional FBG back to the additional optical coupler; and the additional output port being optically coupled to the additional optical coupler via a sixth waveguide so as to receive the additional modulated light signal therefrom, the additional output port being operable to output the additional modulated light signal. 11. A fibre-optic communication system comprising: a communication apparatus according to claim 1 ; and an optical detector in optical communication with the output port of the communication apparatus so as to receive the modulated light signal therefrom, the optical detector being operable to detect a wavelength of the modulated light signal and to extract the logic signal from the detected wavelength. 12. The fibre-optic communication system of claim 11 , wherein the optical detector comprises a spectrometer; or wherein the optical detector comprises: an optical splitter, an optical filter, a first photodetector, a second photodetector, and a logic unit; wherein the optical splitter is arranged to transmit the modulated light signal along a first optical detection path to the logic unit and along a second optical detection path to the logic unit, the first optical detection path containing the first photodetector, and the second optical detection path containing the optical filter and the second photodetector, the optical filter being operable to permit or prevent light reaching the second photodetector based on a wavelength of the light; and wherein the logic unit is operable to extract the logic signal by generating: a first logic state if both photodetectors detect light, a second logic state if only one photodetector detects light, and a fault state if neither photodetector detects light. 13. A vehicle comprising a communication apparatus for a fibre-optic communication system, the communication apparatus comprising: an optical coupler; an input port optically coupled to the optical coupler via a first waveguide, the input port being arranged to receive light; a modulator optically coupled to the optical coupler via a second waveguide, the modulator comprising a logic input and a fibre having a fibre Bragg grating (FBG) arranged to receive the light from the input port via the optical coupler, the modulator being operable to vary a strain force applied to the fibre according to a logic signal received at the logic input so as to modulate a wavelength of a modulated light signal reflected by the FBG back to the optical coupler; an output port optically coupled to the optical coupler via a third waveguide so as to receive the modulated light signal therefrom, the output port being operable to output the modulated light signal, and a transducer or mechanical actuator physically coupled to the fibre in the modulator and in communication with the logic input, and the transducer or the mechanical actuator is