초록 ▼

A system for detecting a contaminant in a container is provided. The system includes a laser source configured to emit a laser beam into the container, an imaging array configured to detect the laser beam as imaging data, and a computing device communicatively coupled to the imaging array. The compu

A system for detecting a contaminant in a container is provided. The system includes a laser source configured to emit a laser beam into the container, an imaging array configured to detect the laser beam as imaging data, and a computing device communicatively coupled to the imaging array. The computing device is configured to determine, from the imaging data, a plurality of beam path length differences due to the contaminant, and calculate, from the beam path length differences, a volume of contaminant in the container.

대표청구항 ▼

1. A system for detecting a contaminant in a container, said system comprising: a laser source configured to emit a laser beam into the container;an imaging array configured to detect the laser beam reflected from a surface of the container, said imaging array configured to determine imaging data fr

1. A system for detecting a contaminant in a container, said system comprising: a laser source configured to emit a laser beam into the container;an imaging array configured to detect the laser beam reflected from a surface of the container, said imaging array configured to determine imaging data from the laser beam; anda computing device communicatively coupled to said imaging array, said computing device configured to: store, in a memory device, a plurality of predetermined calibration path lengths that were previously obtained when no contaminant was present in the container;determine, from the imaging data, a plurality of measured reflected beam path lengths when the contaminant is present in the container;calculate a plurality of beam path length differences due to the contaminant, wherein each beam path length difference is calculated as a difference between a measured reflected beam path length of the plurality of measured reflected beam path lengths and a corresponding predetermined calibration path length of the plurality of predetermined calibration path lengths, wherein said computing device is configured to calculate the plurality of beam path length differences due to the contaminant, wherein the laser beam bends when passing through the contaminant such that the measured reflected beam length is greater than the corresponding predetermined calibration path length; andcalculate, from the beam path length differences, a volume of contaminant in the container. 2. A system in accordance with claim 1, further comprising line scanning optics configured to convert the emitted laser beam into a line format. 3. A system in accordance with claim 1, wherein said laser source is configured to scan a bottom of the container with the laser beam. 4. A system in accordance with claim 1, wherein said laser source is configured to emit a laser beam having a wavelength that is substantially optically transparent to fuel and that is substantially optically opaque to the contaminant. 5. A system in accordance with claim 4, wherein the contaminant is water in at least one of a liquid state and a solid state. 6. A system in accordance with claim 1, wherein said imaging array is one of a one-dimensional imaging array and a two-dimensional imaging array. 7. A system in accordance with claim 1, wherein the container is part of an aircraft. 8. A computing device for use in detecting a contaminant in a container, said computing device comprising: a memory device; anda processor communicatively coupled to said memory device, said processor configured to: receive imaging data from an imaging array, the imaging data including a plurality of measured reflected beam path lengths of a laser beam transmitted into the container and reflected from a surface of the container when the contaminant is present in the container;store, in said memory device, a plurality of predetermined calibration path lengths that were previously obtained when no contaminant was present in the container;calculate a plurality of beam path length differences due to the contaminant, wherein each beam path length difference is calculated as a difference between a measured reflected beam path length of the plurality of measured reflected beam path lengths and a corresponding predetermined calibration path length of the plurality of predetermined calibration path lengths, wherein said computing device is configured to calculate the plurality of beam path length differences due to the contaminant, wherein the laser beam bends when passing through the contaminant such that the measured reflected beam length is greater than the corresponding predetermined calibration path length; andcalculate, from the beam path length differences, a volume of contaminant in the container. 9. A computing device in accordance with claim 8, wherein to calculate a volume of the contaminant, said processor is configured to: generate at least one profile of a bottom of the container from the plurality of beam path length differences; andcalculate the volume of contaminant from the at least one generated profile. 10. A computing device in accordance with claim 9, further comprising a presentation interface communicatively coupled to said processor, said presentation interface configured to display the at least one generated profile. 11. A computing device in accordance with claim 9, wherein to generate at least one profile of a bottom of the container, said processor is configured to generate a horizontal profile and a plurality of vertical profiles. 12. A computing device in accordance with claim 9, wherein said processor is further configured to: compare the calculated volume of contaminant to a predetermined threshold volume stored on said memory device; andgenerate an alarm when the calculated volume of contaminant exceeds the predetermined threshold volume. 13. A method for detecting a contaminant in a container, said method comprising: emitting a laser beam into the container such that the laser beam passes through at least a portion of the container;detecting the laser beam reflected from a surface of the container as imaging data using an imaging array, the imaging data including a plurality of measured reflected path lengths of the laser beam when the contaminant is present in the container;storing, in a memory device, a plurality of predetermined calibration path lengths that were previously obtained when no contaminant was present in the container;calculate a plurality of beam path length differences due to the contaminant, wherein each beam path length difference is calculated as a difference between a measured reflected beam path length of the plurality of measured reflected beam path lengths and a corresponding predetermined calibration path length of the plurality of predetermined calibration path lengths, wherein said computing device is configured to calculate the plurality of beam path length differences due to the contaminant, wherein the laser beam bends when passing through the contaminant such that the measured reflected beam length is greater than the corresponding predetermined calibration path length; andcalculating, from the path length differences, a volume of contaminant in the container. 14. A method in accordance with claim 13, wherein emitting a laser beam comprises emitting a laser beam having a wavelength that is substantially optically transparent to fuel and substantially optically opaque to the contaminant. 15. A method in accordance with claim 13, further comprising rotating a laser source that emits the laser beam to scan a bottom of the container with the laser beam. 16. A method in accordance with claim 13, wherein detecting the laser beam comprises detecting the laser beam using a two-dimensional imaging array after the laser beam has reflected off of a bottom of the container. 17. A method in accordance with claim 13, further comprising: comparing the calculated volume of contaminant to a predetermined threshold volume; andgenerating an alarm when the calculated volume of contaminant exceeds the predetermined threshold volume.