Advanced terrain mapping system

US 5,517,419 A
Filed: 07/22/1993
Issued: 05/14/1996
Est. Priority Date: 07/22/1993
Status: Expired due to Fees

First Claim

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1. A terrain mapping system, comprising:

A) a field system;

B) a global positioning system receiver mounted on the field system for receiving field system position information from a global positioning system satellite;

C) a dead reckoning system, mounted on the field system and comprising a wheel encoder, an attitude sensor, and a roll potentiometer connected to determine and provide geographic reference data relative to the field system; and

D) a navigation system comprising computer logic for correlating the position information from the global positioning receiver and the geographic reference data from the dead reckoning system to determine and record a data collection position of the field system;

E) the global positioning receiver and the dead reckoning system operating concurrently to provide continuous field system position and velocity vector information.

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Abstract

A tractor and trailer together with a post-processing system that uses GPS satellites together with a dead reckoning system and associated cameras and sensors to determine the exact location of the system, translating this location information onto several photogrammetric mapping collectors for the purposes of developing an orthographic database image that can be correlated with other onboard sensors for determining the precise location of terrain features. The main sensor platform comprises a GPS receiver together with a plurality of visual sensors and a dead reckoning system mounted on a trailer. The GPS data and the dead reckoning data are brought together in a navigation system to provide precise location of the system. The camera system on board the trailer of the system comprises a series of cameras for recording images of the terrain as the trailer proceeds over the terrain of interest. During data collection, digital imagery is transmitted from each camera and received by an on-board computer. The collection of image data is triggered by the movement of the vehicle a certain distance along the ground. Simultaneously with the collection of the digital image data, the on-board GPS system and dead reckoning system are queried for geographical reference. A dataframe is then created and stored for each form of imagery from each camera. During post processing, an operator can extract highly accurate geographic coordinates from a combination of photogrammetric techniques using the stored images and geographic data. The system outputs hardcopy engineering plots and softcopy digital vector files.

365 Citations

16 Claims

1. A terrain mapping system, comprising:
- A) a field system;
  
  B) a global positioning system receiver mounted on the field system for receiving field system position information from a global positioning system satellite;
  
  C) a dead reckoning system, mounted on the field system and comprising a wheel encoder, an attitude sensor, and a roll potentiometer connected to determine and provide geographic reference data relative to the field system; and
  
  D) a navigation system comprising computer logic for correlating the position information from the global positioning receiver and the geographic reference data from the dead reckoning system to determine and record a data collection position of the field system;
  
  E) the global positioning receiver and the dead reckoning system operating concurrently to provide continuous field system position and velocity vector information.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. The terrain mapping system of claim 1, further comprising:
    - A) a plurality of cameras mounted on the field system for capturing digital images of terrain proximate to the field system and for providing an output of these digital images to be stored by the navigation system computer;
      
      B) the navigation system including logic for automatically marking the digital images with position and velocity vector information in order to correlate the position and velocity vector information with the digital image output.
  - 3. The terrain mapping system of claim 2, wherein the plurality of cameras are mounted such that the images provide a stereo characterization of the terrain proximate to the field system and to permit presentation of terrain features to occur.
  - 4. The terrain mapping system of claim 2, wherein the cameras are high resolution digital cameras having a frame rate of at least 5 frames second.
  - 5. The terrain mapping system of claim 4, further comprising:
    - A) sensor wheels on which the field system rolls while being transported; and
      
      B) wherein rotation of the sensor wheels providing position and velocity vector information through the use of the wheel encoder to supplement the global positioning receiver.
  - 6. The terrain mapping system of claim 5, wherein the resolution of the wheel encoder is about 65,000 positions over the circumference of the sensor wheels.
  - 7. The terrain mapping system of claim 2, further comprising a post-processing workstation for processing the digital images and position and velocity vector information to provide terrain surveying information, the post-processing workstation comprising:
    - A) processing means having graphics capability;
      
      B) storage means in which the digital images and correlated position and velocity vector information are stored; and
      
      C) display means for viewing the digital images and position and velocity vector information, the display means including stereographic viewing means.
  - 8. The terrain mapping system of claim 7, wherein the post-processing workstation performs photogrammetric data reduction of the digital images and the correlated position and velocity vector information.
  - 9. The terrain mapping system of claim 8, wherein the post-processing workstation provides an output comprising hardcopy engineering plots of terrain surveyed by the terrain mapping system and softcopy vector files of the digital images and correlated position and velocity vector information collected by the terrain mapping system.
  - 10. The terrain mapping system of claim 2, wherein the images captured by the plurality of cameras are associated with an identification number by a system operator for future retrieval of key terrain features and correlated position and velocity vector information.

11. A method for mapping terrain, comprising:
- A) collecting global positioning information from a plurality of global positioning satellites at a particular location on the terrain;
  
  B) collecting dead reckoning information at the same location on the terrain;
  
  C) combining the global positioning information and the dead reckoning information to determine and record data collection position data of the particular location on the terrain;
  
  D) capturing digital images of terrain proximate to the particular location;
  
  E) capturing overlapping digital images of terrain proximate to the particular location to provide a stereo characterization of the terrain proximate to the particular location through a mensuration process;
  
  F) correlating the digital images with the instantaneous position data;
  
  G) collecting global positioning information at a new particular location on the terrain;
  
  H) collecting dead reckoning information at the same new location on the terrain;
  
  I) continuously combining the global positioning information and the dead reckoning information to determine instantaneous position data of the particular location on the terrain as the particular location on the terrain changes to a new location on the terrain;
  
  J) processing the digital images and the instantaneous position data to provide terrain surveying information;
  
  K) associating an identification number with each digital image to facilitate future retrieval of the digital images based on key terrain features on the digital images; and
  
  L) performing photogrammetric data reduction of a horizontal strip camera to determine the spatial location of each pixel for automated derivation of terrain elevation and feature recognition.
- View Dependent Claims (12, 13, 14, 15, 16)
- - 12. The method of claim 11, comprising correcting for errors in future determinations of position at the particular location of the terrain by using known global positioning data at a fixed point to calculate a standard error value to be applied to all future determinations of instantaneous position.
  - 13. The method of claim 11, further comprising using the collected dead reckoning information to interpolate global positioning information when a line of sight of any of the plurality of satellites is obscured by physical structures.
  - 14. The method of claim 11, further comprising performing photogrammetric data reduction of the digital images and the correlated instantaneous position data.
  - 15. The method of claim 14, further comprising providing a hardcopy engineering plot of the terrain surveyed.
  - 16. The method of claim 15, further comprising providing a softcopy vector file of the terrain surveyed.

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Current Assignee
Synectics Corp. (Marconi Holdings Company Limited)
Original Assignee
Synectics Corp. (Marconi Holdings Company Limited)
Inventors
More, Randall K., Lanckton, Arnold H.
Primary Examiner(s)
ZANELLI, MICHAEL J

Application Number

US08/094,882
Time in Patent Office

1,027 Days
Field of Search

364/449, 364/450, 364/443, 364/456, 364/505, 348/143, 348/144, 348/148, 348/116, 348/118, 342/357, 342/457, 340/992, 340/995, 356/375, 356/376
US Class Current

701/216
CPC Class Codes

G01C 11/02 Picture taking arrangements...

G01C 7/04 involving a vehicle which m...

Advanced terrain mapping system

First Claim

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Abstract

365 Citations

16 Claims

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Advanced terrain mapping system

First Claim

2 Assignments

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0 Petitions

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Abstract

365 Citations

16 Claims

Specification

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