Satellite location determination system
First Claim
1. A satellite location determination system for a constellation of satellites, comprising:
- a plurality of optical transceivers, each associated with a respective satellite, each optical transceiver, comprising;
a) an optical synthesizer for producing phase-coherent optical laser pulses;
b) transmission conditioning optics for appropriately conditioning the characteristics of said phase-coherent optical laser pulses;
c) a telescope assembly for receiving an output of said transmission conditioning optics and for transmitting an optical transceiver output into space for reception by an optical transceiver associated with another of said satellites, said telescope assembly also for receiving an optical transceiver output from another of said satellites;
d) reception conditioning optics for appropriately conditioning the characteristics of the optical transceiver output received from said another of said satellites; and
, e) an optical to electronic signal converter for receiving an output from said reception conditioning optics and providing an electronic signal output representing the location of other satellites in the constellation, wherein use of the optical synthesizer for producing the phase-coherent optical laser pulses provides enhanced satellite location information.
1 Assignment
0 Petitions
Accused Products
Abstract
A satellite location determination system for a constellation of satellites includes a plurality of optical transceivers. Each optical transceiver is associated with a respective satellite and includes an optical synthesizer, transmission conditioning optics, a telescope assembly, reception conditioning optics, and an optical to electronic signal converter. The optical synthesizer produces phase-coherent optical laser pulses. The transmission conditioning optics appropriately conditions the characteristics of the phase-coherent optical laser pulses. The telescope assembly receives an output of the transmission conditioning optics and transmits an optical transceiver output into space for reception by an optical transceiver associated with another of the satellites. The telescope assembly also receives an optical transceiver output from another of the satellites. Reception conditioning optics appropriately conditions the characteristics of the optical transceiver output received from another of the satellites. An optical to electronic signal converter receives an output from the reception conditioning optics and provides an electronic signal output representing the location of other satellites in the constellation. Use of the optical synthesizer for producing the phase-coherent optical laser pulses provides enhanced satellite location information.
-
Citations
17 Claims
-
1. A satellite location determination system for a constellation of satellites, comprising:
-
a plurality of optical transceivers, each associated with a respective satellite, each optical transceiver, comprising;
a) an optical synthesizer for producing phase-coherent optical laser pulses;
b) transmission conditioning optics for appropriately conditioning the characteristics of said phase-coherent optical laser pulses;
c) a telescope assembly for receiving an output of said transmission conditioning optics and for transmitting an optical transceiver output into space for reception by an optical transceiver associated with another of said satellites, said telescope assembly also for receiving an optical transceiver output from another of said satellites;
d) reception conditioning optics for appropriately conditioning the characteristics of the optical transceiver output received from said another of said satellites; and
,e) an optical to electronic signal converter for receiving an output from said reception conditioning optics and providing an electronic signal output representing the location of other satellites in the constellation, wherein use of the optical synthesizer for producing the phase-coherent optical laser pulses provides enhanced satellite location information. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
a) a femtosecond mode-locked laser;
b) a radio frequency source; and
,c) a non-linear optical medium for coupling said femtosecond mode-locked laser to said radio frequency source via a nonlinear optical interaction, wherein said phase-coherent optical laser pulses contain frequency components ranging from a fundamental frequency of said mode-locked laser to a second harmonic frequency of the mode-locked laser in frequency steps that correspond to the frequency of the radio frequency source.
-
-
3. The satellite location determination system of claim 1, wherein said non-linear optical medium comprises a photonic crystal optical fiber.
-
4. The satellite location determination system of claim 1, wherein said transmission conditioning optics comprises means for providing intensity control.
-
5. The satellite location determination system of claim 1, wherein said transmission conditioning optics comprises means for providing frequency control.
-
6. The satellite location determination system of claim 1, wherein said transmission conditioning optics comprises means for providing polarization control.
-
7. The satellite location determination system of claim 1, wherein said telescope assembly comprises a series of refractive and/or reflective optics such that the laser pulse spot size and propagation direction are conditioned to allow the pulses to both propagate into space to another satellite or to receive pulses from another satellite.
-
8. The satellite location determination system of claim 1, wherein said reception conditioning optics comprises means for providing intensity control.
-
9. The satellite location determination system of claim 1, wherein said reception conditioning optics comprises means for providing frequency control.
-
10. The satellite location determination system of claim 1, wherein said reception conditioning optics comprises means for providing polarization control.
-
11. The satellite location determination system of claim 1, wherein said optical to electronic signal converter comprises a semiconductor photodiode.
-
12. The satellite location determination system of claim 1, wherein said optical to electronic signal converter comprises a semiconductor avalanche photodiode.
-
13. The satellite location determination system of claim 1, wherein said optical to electronic signal converter comprises a photomultiplier.
-
14. A method for determining the location of a satellites in a constellation of satellites, comprising the steps of:
-
providing a plurality of optical transceivers, each associated with a respective satellite, each optical transceiver for providing the steps of;
a) producing phase-coherent optical laser pulses via an optical synthesizer;
b) conditioning the characteristics of said phase-coherent optical laser pulses;
c) utilizing a telescope assembly for receiving an output of said transmission conditioning optics and transmitting an optical transceiver output into space for reception by an optical transceiver associated with another of said satellites in a constellation, said telescope assembly also for receiving an optical transceiver output from another of said satellites;
d) conditioning the characteristics of the optical transceiver output received from another of said satellites, utilizing reception conditioning optics; and
,e) receiving an output from said reception conditioning optics and providing an electronic signal output representing the location of other satellites in the constellation, wherein use of the optical synthesizer for producing the phase-coherent optical laser pulses provides enhanced satellite location information.
-
-
15. A satellite constellation, comprising:
-
a constellation of satellites, each satellite including an optical transceiver, comprising;
a) an optical synthesizer for producing phase-coherent optical laser pulses;
b) transmission conditioning optics for appropriately conditioning the characteristics of said phase-coherent optical laser pulses;
c) a telescope assembly for receiving an output of said transmission conditioning optics and for transmitting an optical transceiver output into space for reception by an optical transceiver associated with another of said satellites, said telescope assembly also for receiving an optical transceiver output from another of said satellites;
d) reception conditioning optics for appropriately conditioning the characteristics of the optical transceiver output received from said another of said satellites; and
,e) an optical to electronic signal converter for receiving an output from said reception conditioning optics and providing an electronic signal output representing the location of other satellites in the constellation, wherein use of the optical synthesizer for producing the phase-coherent optical laser pulses provides enhanced satellite location information. - View Dependent Claims (16, 17)
a) a femtosecond mode-locked laser;
b) a radio frequency source; and
,c) a non-linear optical medium for coupling said femtosecond mode-locked laser to said radio frequency source via a nonlinear optical interaction, wherein said phase-coherent optical laser pulses contain frequency components ranging from a fundamental frequency of said mode-locked laser to a second harmonic frequency of the mode-locked laser in frequency steps that correspond to the frequency of the radio frequency source.
-
-
17. The satellite constellation of claim 15, wherein said non-linear optical medium comprises a photonic crystal optical fiber.
Specification