Multilateration Enhancements for Noise and Operations Management
First Claim
1. A method of performing real-time calculation of virtual emission levels caused by aircraft, comprising the steps of:
- receiving, at a plurality of locations, radio signals from the aircraft;
time-stamping received radio signals from the aircraft with a time value indicating a time a radio signal is received at one of the plurality of locations;
calculating aircraft position and track from time stamps from the plurality of locations;
identifying the aircraft from data in the radio signals; and
determining emissions levels generated by the aircraft, from aircraft position and track in real time and outputting aircraft emissions level data.
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Accused Products
Abstract
Multilateration techniques are used to provide accurate aircraft tracking data for aircraft on the ground and in the vicinity of an airport. From this data, aircraft noise and operations management may be enhanced. Aircraft noise may be calculated virtually using track data in real-time and provided to a user to determine noise violations. Tracking data may be used to control noise monitoring stations to gate out ambient noise. Aircraft emissions, both on the ground and in the air may be determined using tracking data. This and other data may be displayed in real time or generated in reports, and/or may be displayed on a website for viewing by airport operators and/or members of the public. The system may be readily installed in a compact package using a plurality of receivers and sensor packages located at shared wireless communication towers near an airport, and a central processing station located in or near the airport.
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Citations
14 Claims
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1. A method of performing real-time calculation of virtual emission levels caused by aircraft, comprising the steps of:
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receiving, at a plurality of locations, radio signals from the aircraft; time-stamping received radio signals from the aircraft with a time value indicating a time a radio signal is received at one of the plurality of locations; calculating aircraft position and track from time stamps from the plurality of locations; identifying the aircraft from data in the radio signals; and determining emissions levels generated by the aircraft, from aircraft position and track in real time and outputting aircraft emissions level data. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method of measuring aircraft noise, comprising the steps of:
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determining at least one aircraft flight track using multilateration of radio signals generated by at least one aircraft; measuring at least one noise metrics, including one or more of single event level (SEL), maximum level (Lmax), noise level profile (noise level vs. time), effective perceived noise level (EPNL), perceived noise level with tone weighting (PNLT), and Equivalent Continuous Noise Level (Leq). Correlating the at least one noise metric with the at least one flight track to identify the aircraft corresponding to the at least one noise metric.
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9. A method of measuring aircraft noise, comprising the steps of:
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determining in real-time, at least one aircraft flight track using multilateration of radio signals generate by at least one aircraft; determining, from the at least one aircraft flight track, when an individual physical noise monitor is exposed to no aircraft noise; and measuring noise levels at the individual physical noise monitor. - View Dependent Claims (10, 11, 12, 13)
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14. A system for monitoring environmental conditions and environmental impact of vehicles, including at least one of noise and emissions levels of the vehicles, the system including:
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a plurality of receiver packages located at a plurality of locations, the receivers including a radio receiver, and at least one of a physical noise monitor and a physical emissions monitor; and a processing station, coupled to the plurality of receiver packages, the processing station receiving time-stamped signals from the radio receiver and determining track of a vehicle by multilateration of the time-stamped signals, the processing station calculating at least one of virtual noise levels based in part upon the vehicle track, virtual emissions levels based in part upon the vehicle track, measured noise levels from a physical noise monitor, and measured emissions levels from a physical emissions monitor.
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Specification