System and method for measuring ocean surface currents at locations remote from land masses using synthetic aperture radar

US 4,990,922 A
Filed: 03/14/1990
Issued: 02/05/1991
Est. Priority Date: 03/14/1990
Status: Expired due to Fees

First Claim

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1. In a system for measuring ocean surface currents from an airborne platform using a radar system having two spaced radar antennas wherein one radar antenna is driven with a radar signal and return signals from an ocean surface are detected by both radar antennas and radar data from signals from the radar antennas is used by computational logic to derive measurements of currents on the ocean surface, the improvement with which to determine the position, orientation, and velocity of the platform for use by the computational logic comprising:

(a) first satellite-based global position determination system means including a first GPS antenna carried by the platform at a first location for determining the position of said first antenna from signals from orbiting navigational satellites and for outputting a first signal containing GPS data reflecting said position of said first antenna;

(b) second satellite-based global position determination system means including a second GPS antenna carried by the platform at a second location displaced from said first antenna for determining the position of said second antenna from signals from said orbiting navigational satellites and for outputting a second signal containing GPS data reflecting said position of said second antenna; and

,(c) the computational logic including logic for determining from said GPS data contained in said first signal and said second signal the position, orientation, and velocity of the platform, wherein said first satellite-based global position determination system means and said second satellite-based global position determination system means comprise separate GPS receivers which share a common frequency standard.

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Abstract

This is a system for measuring ocean surface currents from an airborne platform. A radar system having two spaced antennas wherein one antenna is driven and return signals from the ocean surface are detected by both antennas is employed to get raw ocean current data which is saved for later processing. There are a pair of GPS systems including a first antenna carried by the platform at a first location and a second antenna carried by the platform at a second location displaced from the first antenna for determining the position of the antennas from signals from orbiting GPS navigational satellites. This data is also saved for later processing. The saved data is subsequently processed by a ground-based computer system to determine the position, orientation, and velocity of the platform as well as to derive measurements of currents on the ocean surface.

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8 Claims

1. In a system for measuring ocean surface currents from an airborne platform using a radar system having two spaced radar antennas wherein one radar antenna is driven with a radar signal and return signals from an ocean surface are detected by both radar antennas and radar data from signals from the radar antennas is used by computational logic to derive measurements of currents on the ocean surface, the improvement with which to determine the position, orientation, and velocity of the platform for use by the computational logic comprising:
- (a) first satellite-based global position determination system means including a first GPS antenna carried by the platform at a first location for determining the position of said first antenna from signals from orbiting navigational satellites and for outputting a first signal containing GPS data reflecting said position of said first antenna;
  
  (b) second satellite-based global position determination system means including a second GPS antenna carried by the platform at a second location displaced from said first antenna for determining the position of said second antenna from signals from said orbiting navigational satellites and for outputting a second signal containing GPS data reflecting said position of said second antenna; and
  
  ,(c) the computational logic including logic for determining from said GPS data contained in said first signal and said second signal the position, orientation, and velocity of the platform, wherein said first satellite-based global position determination system means and said second satellite-based global position determination system means comprise separate GPS receivers which share a common frequency standard.
- View Dependent Claims (2, 3)
- - 2. The improvement to a system for measuring ocean surface currents of claim 1 wherein:
    - (a) the two spaced radar antennas are disposed on a first baseline of the platform; and
      
      ,(b) said first GPS antenna and said second GPS antenna are disposed on a second baseline of the platform which is parallel to said first baseline.
  - 3. The improvement to a system for measuring ocean surface currents of claim 1 wherein:
    - (a) the two spaced radar antennas are disposed on a first baseline of the platform; and
      
      ,(b) said first GPS antenna and said second GPS antenna are disposed on a second baseline of the platform which is not parallel to said first baseline; and
      
      additionally comprising,(c) third satellite-based global position determination system means including a third GPS antenna carried by the platform at a third location displaced from said first antenna and said second antenna for determining the position of said third antenna from signals from said orbiting navigational satellites and for outputting a third signal containing GPS data reflecting said position of said third antenna;
      
      wherein,(d) the computational logic includes logic for determining from said GPS data contained in said first signal, said second signal, and said third signal the position, orientation, and velocity of the platform.

4. A system for measuring ocean surface currents from an airborne platform comprising:
- (a) a radar system carried by the platform having two spaced radar antennas wherein one radar antenna is driven with a radar signal and return signals from an ocean surface are detected by both radar antennas to output data reflecting said return signals;
  
  (b) first satellite-based global position determination system means including a first GPS antenna carried by the platform at a first location for determining the position of said first antenna from signals from orbiting navigational satellites and for outputting a first signal containing GPS data reflecting said position of said first antenna;
  
  (c) second satellite-based global position determination system means including a second GPS antenna carried by the platform at a second location displaced from said first antenna for determining the position of said second antenna from signals from said orbiting navigational satellites and for outputting a second signal containing GPS data reflecting said position of said second antenna; and
  
  ,(d) computational logic for determining from said GPS data contained in said first signal and said second signal the position, orientation, and velocity of the platform and for employing said data reflecting said return signals relative to said position, orientation, and velocity of the platform to derive measurements of currents on said ocean surface, wherein said first satellite-based global position determination system means and said second satellite-based global position determination system means comprise separate GPS receivers which share a common frequency standard.
- View Dependent Claims (5, 6)
- - 5. The system for measuring ocean surface currents of claim 4 wherein:
    - (a) said two spaced radar antennas are disposed on a first baseline of the platform; and
      
      ,(b) said first GPS antenna and said second GPS antenna are disposed on a second baseline of the platform which is parallel to said first baseline.
  - 6. The improvement to a system for measuring ocean surface currents of claim 4 wherein:
    - (a) said two spaced radar antennas are disposed on a first baseline of the platform; and
      
      ,(b) said first GPS antenna and said second GPS antenna are disposed on a second baseline of the platform which is not parallel to said first baseline; and
      
      additionally comprising,(c) third satellite-based global position determination system means including a third GPS antenna carried by the platform at a third location displaced from said first antenna and said second antenna for determining the position of said third antenna from signals from said orbiting navigational satellites and for outputting a third signal containing GPS data reflecting said position of said third antenna;
      
      wherein,(d) said computational logic includes logic for determining from said GPS data contained in said first signal, said second signal, and said third signal said position, orientation, and velocity of the platform.

7. The method of measuring ocean surface currents from an airborne platform without a fixed landmass against which to determine necessary data comprising the steps of:
- (a) directing a first radar antenna carried by the platform at a first location toward an ocean surface of interest;
  
  (b) directing a second radar antenna carried by the platform at a second location displaced from the first location toward the ocean surface;
  
  (c) driving the first radar antenna with a radar signal;
  
  (d) receiving return signals from the ocean surface from the first radar antenna and the second radar antenna and saving data contained in the return signals;
  
  (e) employing a first satellite-based global position determination system including a first GPS antenna carried by the platform at a third location to determine the position of the first GPS antenna from signals from orbiting navigational satellites and saving data reflecting the position of the first GPS antenna;
  
  (f) employing a second satellite-based global position determination system including a second GPS antenna carried by the platform at a fourth location displaced from the first GPS antenna to determine the position of the second GPS antenna from signals from the orbiting navigational satellites and saving data reflecting the position of the second GPS antenna; and
  
  (g) using the saved data to determine the position, orientation, and velocity of the platform along with measurements of currents on the ocean surface relative to the position, orientation, and velocity of the platform, wherein said steps of employing a first satellite-based global position determination system including a first GPS antenna carried by the platform at a third location to determine the position of the first GPS antenna from signals from orbiting navigational satellites and saving data reflecting the position of the first GPS antenna and employing a second satellite-based global position determination system including a second GPS antenna carried by the platform at a fourth location displaced from the first GPS antenna to determine the position of the second GPS antenna from signals from the orbiting navigational satellites and saving data reflecting the position of the second GPS antenna each include the steps of;
  
  (a) searching systematically for signals from the orbiting navigational satellites over all possible values of range and range rate until a signal of interest is found and locked onto; and
  
  ,(b) locking onto a found signal of interest.
- View Dependent Claims (8)
- - 8. The method of claim 7 wherein the two spaced radar antennas are disposed on a first baseline of the platform and the first GPS antenna and the second GPS antenna are disposed on a second baseline of the platform which is not parallel to the first baseline and additionally comprising the step of:
    - employing a third satellite-based global position determination system including a third GPS antenna carried by the platform at a fifth location displaced from the first GPS antenna and the second GPS antenna to determine the position of the third GPS antenna from signals from the orbiting navigational satellites and saving data reflecting the position of the third GPS antenna.

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Current Assignee
United States Of America As Represented By The Administrator Of The National Aeronautics And Space Administration
Original Assignee
The United States of America As Represented By The Secretary of Agriculture
Inventors
Munson, Timothy N., Purcell, George H. Jr., Srinivasan, Jeffrey M., Thomas, Jess B., Duncan, Courtney B., Young, Lawrence E., Meehan, Thomas K.
Primary Examiner(s)
Barron, Jr., Gilberto

Application Number

US07/493,190
Time in Patent Office

328 Days
Field of Search

392/52, 392/56, 392/191, 392/25, 392/26, 392/356, 392/357
US Class Current

342/52
CPC Class Codes

G01S 13/86   Combinations of radar syste...

G01S 13/90   using synthetic aperture te...

G01S 19/09   providing processing capabi...

G01S 19/53   Determining attitude

System and method for measuring ocean surface currents at locations remote from land masses using synthetic aperture radar

First Claim

2 Assignments

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Abstract

63 Citations

8 Claims

Specification

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System and method for measuring ocean surface currents at locations remote from land masses using synthetic aperture radar

First Claim

2 Assignments

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Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

63 Citations

8 Claims

Specification

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Solutions

Use Cases

Quick Links