Multiple aperture ir sensor

US 4,965,453 A
Filed: 09/17/1987
Issued: 10/23/1990
Est. Priority Date: 09/17/1987
Status: Expired due to Fees

First Claim

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1. Apparatus for determining the location of a source of energy relative to an object, including:

an object having a longitudinal axis extended forwardly and rearwardly thereof;

a detecting means including a plurality of energy detectors, each detector having an individual field of view and adapted to receive energy from an energy emitting source located within its individual field of view, said detectors being mounted with respect to said object to position the individual fields of view of said detectors in an array about said longitudinal axis to form a composite field of view for said detecting means; and

a plurality of signal generating means, one associated with each of said detectors, each signal generating means producing a signal indicating the detection of said energy emitting source within the individual field of view of its associated detector, a composite of said signals indicating which of said individual fields include said source and thereby indicating the approximate location of said source within said composite field of view, wherein each of said individual fields of view circumscribes said longitudinal axis, to form within said composite field an intersection field of view including said individual fields of view and encompassing said longitudinal axis, said composite field including an angle of from 20°

to 60°

, and said intersection field including an angle of less than 4°

.

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Abstract

A multi-aperture, non-imaging sensing system is disclosed, for guiding a moving projectile toward a source of infrared energy. The detectors are arranged peripherally about a forward portion of the projectile, with their individual fields of view overlapping one another to selectively separate a composite field of view into a plurality of separate sectors, with a central sector including all individual fields of view. Infrared sensing elements and electrical circuitry are operatively associated with the detectors, for generating a binary one or zero, depending upon whether an infrared energy source is sensed by the associated detector. The combined results are generated as a digital word, utilized to indicate the location of the source within the composite field of view, and to generate a control signal. The control signal adjusts the projectile orientation to locate and maintain the source within the central sector of the composite field of view.

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14 Claims

1. Apparatus for determining the location of a source of energy relative to an object, including:
- an object having a longitudinal axis extended forwardly and rearwardly thereof;
  
  a detecting means including a plurality of energy detectors, each detector having an individual field of view and adapted to receive energy from an energy emitting source located within its individual field of view, said detectors being mounted with respect to said object to position the individual fields of view of said detectors in an array about said longitudinal axis to form a composite field of view for said detecting means; and
  
  a plurality of signal generating means, one associated with each of said detectors, each signal generating means producing a signal indicating the detection of said energy emitting source within the individual field of view of its associated detector, a composite of said signals indicating which of said individual fields include said source and thereby indicating the approximate location of said source within said composite field of view, wherein each of said individual fields of view circumscribes said longitudinal axis, to form within said composite field an intersection field of view including said individual fields of view and encompassing said longitudinal axis, said composite field including an angle of from 20°
  
  to 60°
  
  , and said intersection field including an angle of less than 4°
  
  .
- View Dependent Claims (2, 3, 4)
- - 2. The apparatus of claim 1 wherein:
    - said individual fields of view are substantially equal to one another in size and shape and arranged substantially symmetrically about said longitudinal axis.
  - 3. The apparatus of claim 2 wherein:
    - each individual field of view is substantially conical in shape.
  - 4. The apparatus of claim 1 wherein:
    - said detecting means comprises six of said detectors.

5. A process for selectively altering the trajectory of a projectile as it moves toward a source emitting infrared energy, wherein a plurality of discrete non-imaging infrared energy detectors are mounted to said projectile in an array surrounding a longitudinal axis of the projectile, and wherein each of said detectors has a substantially conical individual field of view, said individual fields of view cooperating to form a composite field of view, and further overlapping one another to define a plurality of discrete sectors within said composite field of view greater than the number of said detectors;
- said process including the steps of;
  
  (a) generating a binary one corresponding to each detector which senses said source within its individual field of view, and a binary zero corresponding to each of said detectors which does not sense said energy source within its individual field of view;
  
  (b) combining the binary numbers corresponding to said detectors to generate a digital word corresponding to a selected one of said sectors in which said source is located;
  
  (c) generating a control signal corresponding to said digital word, said control signal being predetermined in accordance with said selected sector to selectively alter the orientation of said projectile relative to said source to move said longitudinal axis toward coincidence with said source;
  
  (d) repeating steps (a)-(c) until said source and said longitudinal axis substantially coincide.

6. Apparatus for determining the location of a source of energy relative to a projectile, including:
- an elongate projectile having a longitudinal axis extended forwardly and rearwardly thereof, and substantially centered on said longitudinal axis;
  
  a detecting means including a plurality of energy detectors, each detector having an individual field of view and adapted to receive energy from an energy emitting source located within its individual field of view, said detectors being mounted with respect to said object to position the individual fields of view of said detectors in an array about said longitudinal axis to form a composite field of view for said detecting means;
  
  a plurality of signal generating means, one associated with each of said detectors, each signal generating means producing a signal indicating the detection of said energy emitting source within the individual field of view of its associated detector, a composite of said signals indicating which of said individual fields include said source and thereby indicating the approximate location of said source within said composite field of view, each of said fields of view circumscribing said longitudinal axis, thereby to form within said composite field an intersection field of view including said individual fields of view and encompassing said longitudinal axis;
  
  said signal generating means including a threshold means associated with each of said detectors, for generating a binary one when its associated detector senses energy equal to or greater than a predetermined threshold level and for generating a binary zero when said associated detector senses energy less than said predetermined threshold level, the binary numbers associated with said detectors together forming a digital word representing the location of said source within said composite field; and
  
  a control means, responsive to signals generated by said plurality of signal generating means, for selectively altering the orientation of said projectile to move said intersection field toward coincidence with said energy emitting source.
- View Dependent Claims (7, 8, 9, 10, 11, 12)
- - 7. The apparatus of claim 6 further including:
    - a digital signal processing means for receiving said digital word as an input, generating a digital control signal responsive to said input, and providing said control signal to said control means.
  - 8. The apparatus of claim 7 wherein:
    - said digital word represents a distinct sector of said composite field and generates a unique digital control signal, said digital control signal causing said control means to so selectively alter the orientation of said projectile.
  - 9. The apparatus of claim 7 wherein:
    - said digital signal processing means includes a digital memory having a map stored therein, and said digital control signal is so generated in accordance with said map.
  - 10. The apparatus of claim 7 wherein:
    - said signal generating means, digital processing means and control means are contained within said projectile.
  - 11. The apparatus of claim 7, wherein:
    - said digital signal processing means includes a preprogrammed digital memory means for receiving as an input said digital word and generating as an output a control signal corresponding to said digital word.
  - 12. The apparatus of claim 11 wherein:
    - each individual field of view is conical in shape, said individual fields of view together defining in said composite field a plurality of field sectors in accordance with the formula
      
      space="preserve" listing-type="equation">s=n(n-1)+1
      where n is the number of said energy detectors and s is the number of field sectors; and
      
      wherein said digital word corresponds to the sensing of said energy emitting source in an associated one of said field sectors, and said control signal causes said control means to alter the orientation of said projectile in a manner preselected in accordance with said associated field sector.

13. Apparatus for determining the locating of a source of energy relative to an object, including:
- an object having a longitudinal axis extended forwardly and rearwardly thereof;
  
  a detecting means including a plurality of lenses fixed to said object at a forward end portion thereof and spaced apart radially from said longitudinal axis, and a plurality of infrared radiation detecting elements, one associated with each of said lenses, each of said lenses and its associated detecting element comprising a detector having an individual field of view and adapted to receive energy from an energy emitting source located within its individual field of view, said lenses and detecting elements being mounted to position the individual fields of view in an array about said longitudinal axis to form a composite field of view for said detecting means;
  
  each of said lenses having a focal point and a lens axis which includes said focal point and intersects said lens substantially near its center, said lenses being positioned whereby their respective lens axes diverge from said longitudinal axis and diverge from one another in the forward direction, each of said detecting elements being mounted with respect to said object and positioned rearwardly of its associated lens and on its associated lens axis;
  
  each of said lenses being positioned to define an offset angle comprising the angle between said lens axis and said longitudinal axis, and having a field of view angle comprising the angle between said lens axis and the radially inward edge of said individual field of view, wherein said field of view angle is greater than said offset angle; and
  
  a plurality of signal generating means, one associated with each of said detectors, each signal generating means producing a signal indicating the detection of said energy emitting source within the individual field of view of its associated detector, a composite of said signals indicating which of said individual fields include said source and thereby indicating the approximate location of said source within said composite field of view.
- View Dependent Claims (14)
- - 14. The apparatus of claim 13 wherein:
    - each lens has an overlap angle comprising the angle between said radially inward edge and said longitudinal axis, within a range of from one percent to ten percent of said field of view angle.

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Current Assignee
Honeywell Incorporated (Honeywell International Inc.)
Original Assignee
Honeywell Incorporated (Honeywell International Inc.)
Inventors
Hoschette, Arnold, Lubke, Allen, Ellingboe, Jay M.
Primary Examiner(s)
Tarcza, Thomas H.
Assistant Examiner(s)
Wallace, Linda J.

Application Number

US07/097,831
Time in Patent Office

1,132 Days
Field of Search

244/3.13, 244/3.16, 356/141, 356/152, 356/144, 250/203 R, 250/578, 250/332, 250/342, 250/349, 250/578.1, 250/203.1, 250/203.3
US Class Current

250/349
CPC Class Codes

F41G 7/2253 Passive homing systems, i.e...

F41G 7/2293 using electromagnetic waves...

Multiple aperture ir sensor

First Claim

1 Assignment

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Abstract

43 Citations

14 Claims

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Multiple aperture ir sensor

First Claim

1 Assignment

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0 Petitions

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Abstract

43 Citations

14 Claims

Specification

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