Separated GPS sensor and processing system for remote GPS sensing and centralized ground station processing for remote mobile position and velocity determinations

US 5,420,592 A
Filed: 04/05/1993
Issued: 05/30/1995
Est. Priority Date: 04/05/1993
Status: Expired due to Term

First Claim

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1. A two-part system for navigation solution determination of tile position of a remote mobile sensor in receipt of transmissions from orbiting navigation satellites and in communication with a main station, comprising:

a microwave signal downconverter disposed in said remote mobile sensor and in a first part of said two-Dart system with means for receiving signals from said orbiting navigation satellites visible to said remote mobile sensor;

timing means connected to the microwave signal downconverter for establishing coherency of a user clock bias associated with said received orbiting navigation satellite signals wherein the starting points of collection and transmission of data from the microwave signal downconverter are synchronized to occur at integer multiples of a code epoch of said orbiting navigation satellite signals with a constant user clock bias;

main station navigation processing means disposed in a second part of said two-part system and independent from said first part and connected to remotely receive down converted signals from the microwave downconverter means and a coherent user clock from the timing means for computing navigation solutions of the position of said first part from data periodically received from said remote mobile sensor; and

a Kalman filter connected to the main station GPS processing means for accurately estimating and removing said user clock bias.

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Abstract

A rawinsonde system embodiment of the present invention includes a digital GPS snapshot buffer and a serial communications controller for transmitting message frames formed of a combination of digital GPS data from the snapshot buffer and digitized hardwired meteorological data input from a humidity-temperature-pressure instrument. The message frames are telemetered at a relatively low rate over a meteorological radio band to a ground station. Substantially all of the conventional GPS digital signal processing is performed by the ground station, including carrier recovery, PRN code locking, pseudo-range extraction, ephemeris data extraction, almanac collection, satellite selection, navigation solution calculation and differential corrections. Ground processing further includes Kalman filter wind velocity calculation.

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12 Claims

1. A two-part system for navigation solution determination of tile position of a remote mobile sensor in receipt of transmissions from orbiting navigation satellites and in communication with a main station, comprising:
- a microwave signal downconverter disposed in said remote mobile sensor and in a first part of said two-Dart system with means for receiving signals from said orbiting navigation satellites visible to said remote mobile sensor;
  
  timing means connected to the microwave signal downconverter for establishing coherency of a user clock bias associated with said received orbiting navigation satellite signals wherein the starting points of collection and transmission of data from the microwave signal downconverter are synchronized to occur at integer multiples of a code epoch of said orbiting navigation satellite signals with a constant user clock bias;
  
  main station navigation processing means disposed in a second part of said two-part system and independent from said first part and connected to remotely receive down converted signals from the microwave downconverter means and a coherent user clock from the timing means for computing navigation solutions of the position of said first part from data periodically received from said remote mobile sensor; and
  
  a Kalman filter connected to the main station GPS processing means for accurately estimating and removing said user clock bias.
- View Dependent Claims (2, 3, 4)
- - 2. The system of claim 1, wherein:
    - the Kalman filter uses said user clock bias coherency in averaging positional estimates and wherein such coherency allows navigation updates with reduced GPS satellite constellations due to adverse random motion of said remote mobile sensor that affects reception of GPS signals from less than all said GPS satellites visible at any one instant, said updates enabled by setting a corresponding element of an R-matrix of blocked satellites to relatively large values.
  - 3. The system of claim 1, wherein:
    - the Kalman filter includes outputs for position and velocity estimates derived over several seconds of observation.
  - 4. The system of claim 1, wherein:
    - the Kalman filter has outputs for instantaneous performance measures including estimated position and velocity variance.

5. An expendable mobile remote sensor for GPS determination of the remote sensor position by a ground station, the sensor comprising:
- GPS downconverter means for receiving a plurality of GPS signals from GPS satellites and for outputting an in-phase (I) intermediate frequency (IF) signal;
  
  a ninety-degree phase shifter for generating a quadrature-phase (Q) IF signal from said in-phase intermediate frequency signal;
  
  dual single-bit digitizer means for simultaneously sampling said in-phase intermediate frequency and quadrature-phase intermediate frequency at a first bit rate to produce corresponding in-phase sample and quadrature-phase sample serial signal outputs;
  
  buffering means for organizing said In-phase samples and said quadrature-phase samples serial signals into a serial data stream having a second bit rate; and
  
  radio transmitter means for periodically broadcasting said serial data stream.
- View Dependent Claims (6, 7, 8)
- - 6. The sensor of claim 5, wherein:
    - the GPS downconverter means includes filtering means for producing a receiver bandwidth of approximately 1.3 MHz with a relatively low group delay variation; and
      
      the ninety-degree phase shifter has a substantially constant phase shift over the bandwidth of the GPS downconverter.
  - 7. The sensor of claim 5, wherein:
    - the dual single-bit digitizer means comprises for each channel of the in-phase and quadrature-phase sampling a comparator which drives a D-type latch clocked at said first rate.
  - 8. The sensor of claim 5, wherein:
    - the GPS downconverter means includes filtering means for producing a receiver bandwidth of approximately 1.3 MHz with a relatively low group delay variation;
      
      the ninety-degree phase shifter has a substantially constant phase shift over the bandwidth of the GPS downconverter; and
      
      the dual single-bit digitizer means comprises for each channel of the in-phase and quadrature-phase sampling a comparator which drives a D-type latch clocked at said first rate which is approximately four MHz.

9. A mobile remote sensing system with GPS determination of the remote sensor position by a system ground station, the system comprising:
- GPS downconverter means for receiving a plurality of GPS signals from GPS satellites and for outputting an in-phase intermediate frequency (IF) signal;
  
  a ninety-degree phase shifter for generating a quadrature-phase IF signal from said in-phase intermediate frequency signal;
  
  dual single-bit digitizer means for simultaneously sampling said in-phase intermediate frequency and quadrature-phase intermediate frequency at a first bit rate to produce corresponding in-phase sample and quadrature-phase sample serial signal outputs;
  
  buffering means for organizing said in-phase samples and said quadrature-phase samples into a serial data stream having a second bit rate; and
  
  radio transmitter means for periodically broadcasting said serial data stream;
  
  meteorological measuring instrument means for periodically testing an ambient atmosphere and for outputting a serial digital signal comprising information related to said tests; and
  
  frame formatting means for combining said meteorological information serial digital signal in meteorological words with said in-phase sample and a quadrature-phase sample pair of serial outputs for periodic transmission to said ground support station by the radio transmitter means.
- View Dependent Claims (10, 11)
- - 10. The system of claim 9, further comprising said ground station which includes:
    - GPS receiver means for obtaining ephemeris, clock and almanac information directly from a constellation of GPS satellites in view for said remote sensor;
      
      radio means for receiving said broadcasts of said serial data stream; and
      
      computer means for determining a position of said remote sensor from information derived from said serial data stream and said ephemeris, clock and almanac information.
  - 11. The system of claim 10, wherein:
    - the GPS receiver means further includes GPS positioning determination means wherein a differential correction may be applied to a computed position of said remote sensor by comparing a computed position for said ground station to a previously determined actual position for said ground station.

12. A rawinsonde for GPS position determination support by a ground station, comprising:
- balloon means for carrying the rawinsonde aloft in the atmosphere in a free-flight;
  
  GPS downconverter means for receiving a plurality of GPS signals from GPS satellites and for outputting an in-phase (I) and a quadrature-phase (Q) intermediate frequency (IF) pair of signals comprising pseudo-random number (PRN) code division multiple access (C/A) information;
  
  single-bit digitizer means for sampling said in-phase intermediate frequency and quadrature-phase intermediate frequency at a first rate to produce an in-phase sample and a quadrature-phase sample pair of serial outputs;
  
  meteorological measuring instrument means for periodically testing said atmosphere and for outputting a signal comprising information related to said tests;
  
  frame formatting means for combining said meteorological information signal with said in-phase sample and a quadrature-phase sample pair of serial outputs; and
  
  radio transmitter means for periodically broadcasting said frame formatted signals including said in-phase sample and a quadrature-phase sample pair of serial outputs and said meteorological information signal.

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Current Assignee
Radix Technologies, Inc. (The Boeing Co.)
Original Assignee
Radix Technologies, Inc. (The Boeing Co.)
Inventors
Johnson, Russell K.
Primary Examiner(s)
Blum, Theodore M.

Application Number

US08/042,551
Time in Patent Office

785 Days
Field of Search

342/357
US Class Current

342/357.46
CPC Class Codes

G01S 11/10   using Doppler effect

G01S 19/09   providing processing capabi...

G01S 19/35   Constructional details or h...

G01S 5/0036   of measured values, i.e. me...

H04B 7/18552   using a telephonic control ...

Separated GPS sensor and processing system for remote GPS sensing and centralized ground station processing for remote mobile position and velocity determinations

First Claim

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Abstract

397 Citations

12 Claims

Specification

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Separated GPS sensor and processing system for remote GPS sensing and centralized ground station processing for remote mobile position and velocity determinations

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

397 Citations

12 Claims

Specification

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Solutions

Use Cases

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