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US20090146881A1 - Multi-platform precision passive location of continuous wave emitters - Google Patents

Multi-platform precision passive location of continuous wave emitters
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US20090146881A1
US20090146881A1US11/432,940US43294006AUS2009146881A1US 20090146881 A1US20090146881 A1US 20090146881A1US 43294006 AUS43294006 AUS 43294006AUS 2009146881 A1US2009146881 A1US 2009146881A1
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continuous waveform
signal sample
time
maximum likelihood
arrival
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US7551139B1 (en
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David Keith Mesecher
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Northrop Grumman Systems Corp
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Northrop Grumman Corp
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Assigned to NORTHROP GRUMMAN SYSTEMS CORPORATIONreassignmentNORTHROP GRUMMAN SYSTEMS CORPORATIONASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS).Assignors: NORTHROP GRUMMAN CORPORATION
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Abstract

An apparatus comprises a first sensor mounted on a first platform for sampling a first portion of a continuous waveform occurring in a time window and for producing a first signal sample, a second sensor mounted on a second platform for sampling a second portion of the continuous waveform occurring in the time window for producing a second signal sample, and a processor for determining time difference of arrival measurements and for applying a maximum likelihood estimation process to combine multiple time difference of arrival measurements between multiple pairs of platforms, to estimate the location of an emitter of the continuous waveform. A method performed by the apparatus is also provided.

Description

Claims (23)

1. A system comprising:
a first sensor mounted on a first platform for sampling a first portion of a continuous waveform occurring in a time window and for producing a first signal sample;
a second sensor mounted on a second platform for sampling a second portion of the continuous waveform occurring in the time window for producing a second signal sample, wherein the first portion and the second portion include a common portion of the continuous waveform; and
a processor for processing the first and second signal samples to determine time difference of arrival measurements and for applying a maximum likelihood estimation process to combine multiple time difference of arrival measurements, to estimate the location of an emitter of the continuous waveform wherein the maximum likelihood estimation process is a generalized linearized recursive maximum likelihood estimation process.
7. A system comprising:
a first sensor mounted on a first platform for sampling a first portion of a continuous waveform occurring in a time window and for producing a first signal sample;
a second sensor mounted on a second platform for sampling a second portion of the continuous waveform occurring in the time window for producing a second signal sample, wherein the first portion and the second portion include a common portion of the continuous waveform; and
a processor for processing the first and second signal samples to determine time difference of arrival measurements and for applying a maximum likelihood estimation process to combine multiple time difference of arrival measurements, to estimate the location of an emitter of the continuous waveform, wherein the processor transforms the time shifted first signal sample and the second signal sample from the time domain into the frequency domain, and then frequency shifts the transform of the time shifted first signal sample with respect to the transform of the second signal sample and correlates the transform of the time shifted first signal sample and the transform of the second signal sample, wherein maximum correlation occurs at a frequency shift equal to the frequency difference of arrival of the continuous waveform at the first and second sensors.
10. A method comprising the steps of:
using a first sensor mounted on a first platform to sample a first portion of a continuous waveform occurring in a time window to produce a first signal sample;
using a second sensor mounted on a second platform to sample a second portion of the continuous waveform occurring in the time window to produce a second signal sample, wherein the first portion and the second portion include a common portion of the continuous waveform;
time shifting the first signal sample with respect to the second signal sample;
correlating the first and second signal samples to determine a time difference of arrival measurement; and
applying a maximum likelihood estimation process to combine multiple time difference of arrival measurements, to estimate the location of an emitter of the continuous waveform, wherein the maximum likelihood estimation process is a generalized linearized recursive maximum likelihood estimation process.
18. A method comprising the steps of:
using a first sensor mounted on a first platform to sample a first portion of a continuous waveform occurring in a time window to produce a first signal sample;
using a second sensor mounted on a second platform to sample a second portion of the continuous waveform occurring in the time window to produce a second signal sample, wherein the first portion and the second portion include a common portion of the continuous waveform;
time shifting the first signal sample with respect to the second signal sample;
correlating the first and second signal samples to determine a time difference of arrival measurement;
applying a maximum likelihood estimation process to combine multiple time difference of arrival measurements, to estimate the location of an emitter of the continuous waveform;
transforming the time shifted first signal sample and the second signal sample from the time domain into the frequency domain;
frequency shifting the transform of the time shifted first signal sample with respect to the transform of the second signal sample; and
correlating the transform of the time shifted first signal sample and the transform of the second signal sample, wherein maximum correlation occurs at a frequency shift equal to the frequency difference of arrival of the continuous waveform at the first and second sensors.
20. A system comprising:
a first sensor mounted on a first platform for sampling a first portion of a continuous waveform occurring in a time window and for producing a first signal sample;
a second sensor mounted on a second platform for sampling a second portion of the continuous waveform occurring in the time window for producing a second signal sample, wherein the first portion and the second portion include a common portion of the continuous waveform; and
a processor for processing the first and second signal samples to determine frequency difference of arrival measurements and for applying a maximum likelihood estimation process to combine multiple frequency difference of arrival measurements, to estimate the location of an emitter of the continuous waveform, wherein the maximum likelihood estimation process is a generalized linearized recursive maximum likelihood estimation process.
22. A method comprising the steps of:
using a first sensor mounted on a first platform to sample a first portion of a continuous waveform occurring in a time window to produce a first signal sample;
using a second sensor mounted on a second platform to sample a second portion of the continuous waveform occurring in the time window to produce a second signal sample, wherein the first portion and the second portion include a common portion of the continuous waveform;
determining frequency difference of arrival measurements from the first and second signal samples; and
applying a maximum likelihood estimation process to combine multiple frequency difference of arrival measurements, to estimate the location of an emitter of the continuous waveform, wherein the maximum likelihood estimation process is a generalized linearized recursive maximum likelihood estimation process.
US11/432,9402006-05-122006-05-12Multi-platform precision passive location of continuous wave emittersActive2026-06-23US7551139B1 (en)

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