Arthur S Bornowski

US Patent:

6621914, Sep 16, 2003

Filed:

Oct 22, 1999

Appl. No.:

09/426559

Inventors:

Arthur Steven Bornowski - Sunnyvale TX

Assignee:

Lockheed Martin Corporation - Bethesda MD

International Classification:

G06K 900

US Classification:

382103, 382283, 356 3

Abstract:

A method for detecting the presence of an object in multi-dimensional imagery data is disclosed. The method includes: (a) providing multi-dimensional imagery data, including an array of pixels; (b) selecting a pixel in the array; (c) applying a linear mask to the selected pixel and local pixels, including selecting pixels linearly adjacent to the selected pixel, amplifying the z coordinate of the selected pixel, summing the z coordinates of the selected linearly adjacent pixels, and comparing the amplified z coordinate to the summed z coordinates to produce value A; (d) if value A exceeds specified threshold A, then applying a confirmation mask to the selected pixel and the selected linearly adjacent pixels, including selecting one linearly adjacent pixel and comparing the z coordinate of the selected pixel to the z coordinate of the linearly adjacent pixel to produce value B; and (e) if value B exceeds specified threshold B, then designating the selected pixel as being associated with the boundary of an object.

US Patent:

6714663, Mar 30, 2004

Filed:

Nov 9, 1999

Appl. No.:

09/436607

Inventors:

Arthur Steven Bornowski - Sunnyvale TX

Assignee:

Lockheed Martin Corp. - Bethesda MD

International Classification:

G06K 900

US Classification:

382106, 382154

Abstract:

A method for determining the reference plane in multi-dimensional data is disclosed. In one embodiment, the method includes (a) providing multi-dimensional imagery data, referred to as set A, including an array of pixels having object pixels marked; (b) range gating about at least a subset of the marked object pixels, including marking pixels outside the range gate to form an unmarked pixel subset of set A, referred to as subset B; (c) performing maximal z density analysis on subset B, including marking pixels outside the maximum density to form an unmarked pixel subset of subset B, referred to as subset C; (d) performing a local normal vector estimate on subset C, including marking pixels having a normal vector exceeding specified threshold L from nominal to form an unmarked pixel subset of subset C, referred to as subset D; (e) performing a first ground plane fit on subset D, each pixel producing residual value X, cumulatively known as residual set X; (f) analyzing residual X, including performing a residual density analysis and marking pixels whose residual value X exceeds specified threshold M to form an unmarked pixel subset of subset D, referred to as subset E; (g) performing a second ground plane fit on subset E, each pixel producing residual value Y, cumulatively known as residual set Y; (h) analyzing residual set Y, including marking pixels whose residual value Y exceeds specified threshold N to form an unmarked pixel subset of subset E, referred to as subset F; and (i) estimating the reference plane for subset F.

US Patent:

7149326, Dec 12, 2006

Filed:

Feb 25, 2003

Appl. No.:

10/373980

Inventors:

Arthur Steven Bornowski - Sunnyvale TX, US

Assignee:

Lockheed Martin Corporation - Bethesda MD

International Classification:

G06K 9/00
G06K 9/62
G06K 9/48

US Classification:

382103, 382199, 382224

Abstract:

A method for detecting the presence of an object in multi-dimensional imagery data is disclosed. The method includes: (a) providing multi-dimensional imagery data, including an array of pixels; (b) selecting a pixel in the array; (c) applying a linear mask to the selected pixel and local pixels, including selecting pixels linearly adjacent to the selected pixel, amplifying the z coordinate of the selected pixel, summing the z coordinates of the selected linearly adjacent pixels, and comparing the amplified z coordinate to the summed z coordinates to produce value A; (d) if value A exceeds specified threshold A, then applying a confirmation mask to the selected pixel and the selected linearly adjacent pixels, including selecting one linearly adjacent pixel and comparing the z coordinate of the selected pixel to the z coordinate of the linearly adjacent pixel to produce value B; and (e) if value B exceeds specified threshold B, then designating the selected pixel as being associated with the boundary of an object.

US Patent:

8049869, Nov 1, 2011

Filed:

Apr 11, 2007

Appl. No.:

11/733917

Inventors:

Edward Max Flowers - Grand Prairie TX, US
Lionel D. Liebman - Plano TX, US
Gregory N. Whitfield - Mansfield TX, US
Arthur S. Bornowski - Sunnyvale TX, US

Assignee:

Lockheed Martin Corporation - Bethesda MD

International Classification:

G01P 3/36

US Classification:

356 29, 356 501, 356 51, 356 515

Abstract:

The present invention includes a multifaceted imaging semi-active laser system (“I-SALS”). In one aspect, the I-SALS closes on a laser designation of a target until it starts imaging the target, whereupon the I-SALS then homes on the target from the image. Some embodiments employ a slightly defocused designation. Other embodiments use existential jitter in the designation and other embodiments intentionally induce a jitter in the designation called dither. One particular embodiments provides a dual field-of-view optics package that has no moving parts.

US Patent:

56443862, Jul 1, 1997

Filed:

Jan 11, 1995

Appl. No.:

8/371284

Inventors:

Gary Kim Jenkins - Arlington TX
Bruno Jack Evans - Euless TX
David Collis Williams - Burleson TX
Arthur Steven Bornowski - Garland TX

Assignee:

Loral Vought Systems Corp. - Grand Prairie TX

International Classification:

G01C 308
H04N 718
H04N 712
G01N 502

US Classification:

356 401

Abstract:

A visual recognition system is disclosed for detecting a target within a scene. A LADAR system and method is employed for scanning laser light signals across a scene having a target to be characterized. Laser light reflected from the target is detected and processed into a three-dimensional image. The three-dimensional image is segmented to separate the target from the overall scene. Substantially, only the segmented target data is either displayed locally or transmitted via a narrow bandwidth transmission medium to a remote site for display. The invention finds particular application in military situations where enemy armor is detected and the segmented version of the armor is transmitted via SINCGARS.

US Patent:

54248230, Jun 13, 1995

Filed:

Aug 17, 1993

Appl. No.:

8/107957

Inventors:

James L. Nettles - Arlington TX
Arthur S. Bornowski - Garland TX

Assignee:

Loral Vought Systems Corporation - Grand Prarie TX

International Classification:

G01C 308
G01B 1130
G06K 956

US Classification:

356 501

Abstract:

An improved system for using reflected energy signals sensed by light detecting optics to identify flat surfaces that are orthogonal to the detecting optics. A light source generates a laser light beam, the beam is scanned across a target scene, and a reflected signal is sensed by light detecting optics to produce an electrical representation of the reflected signal. The representation is stored in an array in the form of a plurality of data elements. The data elements are sequentially analyzed by comparing the range of each data element with the ranges of a selected number of neighboring elements, and giving the data element under analysis a corresponding "index. " Data elements whose ranges closely match neighboring data elements are assigned higher indices. Neighboring data elements with high indices therefore signify proximate points on a flat surface, which is orthogonal to the detecting optics. The data elements may be further analyzed by distinguishing elements with higher indices from those with lower indices, to highlight the flatter, more orthogonal surfaces.

Address:

106 Big Bnd Cir, Sunnyvale, TX 75182

Phone:

9722264998

VIN:

KMHFC46F07A227144

Make:

HYUNDAI

Model:

AZERA

Year:

2007