A method can include transmitting, from a light source, light through a fuel tank ullage, and determining, by a processing device, an amount of absorption of at least one wavelength of the transmitted light. The method can further include determining, by the processing device based on the amount of
A method can include transmitting, from a light source, light through a fuel tank ullage, and determining, by a processing device, an amount of absorption of at least one wavelength of the transmitted light. The method can further include determining, by the processing device based on the amount of absorption of the at least one wavelength of the transmitted light, a chemical composition of the fuel tank ullage.
대표청구항▼
1. A method comprising: transmitting, from a light source, light through a fuel tank ullage;receiving the transmitted light at an image sensing device;determining, by a processing device coupled to the image sensing device, an amount of absorption of at least one wavelength of the transmitted light;
1. A method comprising: transmitting, from a light source, light through a fuel tank ullage;receiving the transmitted light at an image sensing device;determining, by a processing device coupled to the image sensing device, an amount of absorption of at least one wavelength of the transmitted light;determining, by the processing device based on the amount of absorption of the at least one wavelength of the transmitted light, a chemical composition of the fuel tank ullage, wherein determining the chemical composition of the fuel tank ullage comprises determining presence of a constituent in the fuel tank ullage based on the determined amount of absorption of the at least one wavelength; anddetermining, based on the determined presence of the constituent in the fuel tank ullage, an operational status of an inert gas generating system configured to produce oxygen-depleted air for the fuel tank ullage;wherein determining the presence of the constituent in the fuel tank ullage based on the determined amount of absorption of the at least one wavelength comprises determining an amount of the constituent present in the fuel tank ullage based on the determined amount of absorption of the at least one wavelength; andwherein determining the operational status of the inert gas generating system comprises determining the operational status corresponding to a failure mode of the inert gas generating system in response to determining that the amount of the constituent present in the fuel tank ullage deviates from one or more threshold acceptability criteria. 2. The method of claim 1, wherein determining the amount of absorption of the at least one wavelength of the transmitted light comprises: measuring an intensity of the at least one wavelength received at the image sensing device; anddetermining the amount of absorption of the at least one wavelength based on a change between a reference intensity of the at least one wavelength transmitted by the light source and the measured intensity of the at least one wavelength received at the image sensing device. 3. The method of claim 1, wherein the image sensing device is disposed at a location that is remote from the light source. 4. The method of claim 1, wherein the image sensing device is co-located with the light source; andwherein receiving the transmitted light at the image sensing device comprises receiving a reflection of the transmitted light after the transmitted light is reflected from a location that is a distance from the light source. 5. The method of claim 1, wherein the at least one wavelength of the transmitted light comprises an absorption wavelength of oxygen; andwherein determining the presence of the constituent in the fuel tank ullage based on the determined amount of absorption of the at least one wavelength comprises determining the presence of oxygen based on the determined amount of absorption of the absorption wavelength of oxygen. 6. The method of claim 1, wherein the one or more threshold acceptability criteria comprise a threshold maximum limit corresponding to a maximum acceptable amount of the constituent; andwherein determining that the amount of the constituent present in the fuel tank ullage deviates from the one or more threshold acceptability criteria comprises determining that the amount of the constituent present in the fuel tank ullage exceeds the threshold maximum limit corresponding to the maximum acceptable amount of the constituent. 7. The method of claim 1, wherein the one or more threshold acceptability criteria comprise a threshold minimum limit corresponding to a minimum acceptable amount of the constituent; andwherein determining that the amount of the constituent present in the fuel tank ullage deviates from the one or more threshold acceptability criteria comprises determining that the amount of the constituent present in the fuel tank ullage is less than the threshold minimum limit corresponding to the minimum acceptable amount of the constituent. 8. A system comprising: a light source located to transmit light a fuel tank ullage;an image sensing device located to receive the light transmitted from the light source;at least one processor coupled to the image sensing device; andnon-transitory computer-readable memory encoded with instructions that, when executed by the at least one processor, cause the system to: transmit the light from the light source through the fuel tank ullage;receive the transmitted light at the image sensing device;determine an amount of absorption of at least one wavelength of the transmitted light;determine, based on the amount of absorption of the at least one wavelength of the transmitted light, a chemical composition of the fuel tank ullage by at least causing the system to determine presence of a constituent in the fuel tank ullage based on the determined amount of absorption of the at least one wavelength; anddetermine, based on the determined presence of the constituent in the fuel tank ullage, an operational status of an inert gas generating system configured to produce oxygen-depleted air for the fuel tank ullage;wherein the computer-readable memory is further encoded with instructions that, when executed by the at least one processor, cause the system to: determine the presence of the constituent in the fuel tank ullage by at least causing the system to determine an amount of the constituent present in the fuel tank ullage based on the determined amount of absorption of the at least one wavelength; anddetermine the operational status of the inert gas generating system by at least causing the system to determine the operational status corresponding to a failure mode of the inert gas generating system in response to determining that the amount of the constituent present in the fuel tank ullage deviates from one or more threshold acceptability criteria. 9. The system of claim 8, wherein the computer-readable memory is further encoded with instructions that, when executed by the at least one processor, cause the system to determine the amount of absorption of the at least one wavelength of the transmitted light by at least causing the system to: measure an intensity of the at least one wavelength received at the image sensing device; anddetermine the amount of absorption of the at least one wavelength based on a change between a reference intensity of the at least one wavelength transmitted by the light source and the measured intensity of the at least one wavelength received at the image sensing device. 10. The system of claim 8, wherein the image sensing device is disposed at a location that is remote from the light source. 11. The system of claim 8, wherein the image sensing device is co-located with the light source to receive a reflection of the transmitted light after the transmitted light is reflected from a location that is a distance from the light source. 12. The system of claim 8, wherein the at least one wavelength of the transmitted light comprises an absorption wavelength of oxygen; andwherein the computer-readable memory is further encoded with instructions that, when executed by the at least one processor, cause the system to determine the presence of the constituent in the fuel tank ullage based on the determined amount of absorption of the at least one wavelength by at least causing the system to determine the presence of oxygen based on the determined amount of absorption of the absorption wavelength of oxygen. 13. The system of claim 8, wherein the one or more threshold acceptability criteria comprise a threshold maximum limit corresponding to a maximum acceptable amount of the constituent; andwherein the computer-readable memory is further encoded with instructions that, when executed by the at least one processor, cause the system to determine that the amount of the constituent present in the fuel tank ullage deviates from the one or more threshold acceptability criteria by at least causing the system to determine that the amount of the constituent present in the fuel tank ullage exceeds the threshold maximum limit corresponding to the maximum acceptable amount of the constituent. 14. The system of claim 8, wherein the one or more threshold acceptability criteria comprise a threshold minimum limit corresponding to a minimum acceptable amount of the constituent; andwherein the computer-readable memory is further encoded with instructions that, when executed by the at least one processor, cause the system to determine that the amount of the constituent present in the fuel tank ullage deviates from the one or more threshold acceptability criteria by at least causing the system to determine that the amount of the constituent present in the fuel tank ullage is less than the threshold minimum limit corresponding to the minimum acceptable amount of the constituent. 15. A device comprising: at least one processor; andnon-transitory computer-readable memory encoded with instructions that, when executed by the at least one processor, cause the device to: determine an amount of absorption of at least one wavelength of light transmitted from a light source through a fuel tank ullage and received at an image sensing device coupled to the at least one processor;determine, based on the amount of absorption of the at least one wavelength of the transmitted light, a chemical composition of the fuel tank ullage by at least determining presence of a constituent in the fuel tank ullage based on the determined amount of absorption of the at least one wavelength; anddetermine, based on the determined presence of the constituent in the fuel tank ullage, an operational status of an inert gas generating system configured to produce oxygen-depleted air for the fuel tank ullage;wherein the computer-readable memory is further encoded with instructions that, when executed by the at least one processor, cause the device to: determine the presence of the constituent in the fuel tank ullage by at least determining an amount of the constituent present in the fuel tank ullage based on the determined amount of absorption of the at least one wavelength; anddetermine the operational status of the inert gas generating system by at least determining the operational status corresponding to a failure mode of the inert gas generating system in response to determining that the amount of the constituent present in the fuel tank ullage deviates from one or more threshold acceptability criteria. 16. The device of claim 15, wherein the computer-readable memory is further encoded with instructions that, when executed by the at least one processor, cause the device to determine the amount of absorption of the at least one wavelength of the transmitted light by at least causing the device to: determine the amount of absorption of the at least one wavelength of the transmitted light based on a change between a measured intensity of the at least one wavelength transmitted by the light source and a measured intensity of the at least one wavelength received at an image sensing device after the light is transmitted through a distance of the fuel tank ullage.
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