Patents by Inventor Andrew Kostrzewski
Andrew Kostrzewski has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20060023105Abstract: A panoramic annular lens system (PAL), a unitary video camera and a PC-based software system that unwraps a 360° video image into a seamless, distortion free horizontal image image in real time. The PAL system of the preferred embodiment has a 360° horizontal field of view and a 90° vertical field of view in a 40 mm diameter compact package. The invention is not limited to any particular type of lens system. In fact, there are numerous lens systems for providing a 360° panoramic view. The video camera may be a CCD or CMOS based device having a pixel resolution of either 1280×1024 (high resolution) or 720×480 (NTSC). The unwrapping system is a radiometric ray tracing program carried out using a computer's graphics card capabilities to produce highly efficient regional transformation while minimizing software overhead. The result is real time, high resolution 30 fps conversion from a spherical distorted image to a flat panoramic image in Cartesian coordinates.Type: ApplicationFiled: January 15, 2004Publication date: February 2, 2006Inventors: Andrew Kostrzewski, Sookwang Ro, Il'ya Agurok, Mark Bennahmias
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Patent number: 6744909Abstract: An authentication system using a correlator that correlates an input with a reference wherein at least one of the input and reference comprises a phase volume mask having structures, preferably points, that are each less than about six microns in size and can have an aspect ratio (AR) greater than 1:1 so as to produce a phase encoded random pattern having millions of combinations in a mask that is as small as one square millimeter. The random pattern can be convolved with a second pattern, such as a biometric pattern, to produce a phase convolved mask. The correlator preferably is a nonlinear joint transform correlator that can use “chirp” encoding to permit the input to be located in a different plane than the reference. The correlator optically Fourier transforms images of the reference and input that are thereafter nonlinearly transformed and inverse Fourier transformed by a processor to determine the presence or absence of a correlation spike indicative of authenticity.Type: GrantFiled: August 19, 1999Date of Patent: June 1, 2004Assignee: Physical Optics CorporationInventors: Andrew A. Kostrzewski, Gajendra D. Savant, Tomasz P. Jannson, Joanna L. Jannson
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Publication number: 20040101168Abstract: An authentication system using a correlator that correlates an input with a reference wherein at least one of the input and reference comprises a phase volume mask having structures, preferably points, that are each less than about six microns in size and can have an aspect ratio (AR) greater than 1:1 so as to produce a phase encoded random pattern having millions of combinations in a mask that is as small as one square millimeter. The random pattern can be convolved with a second pattern, such as a biometric pattern, to produce a phase convolved mask. The correlator preferably is a nonlinear joint transform correlator that can use “chirp” encoding to permit the input to be located in a different plane than the reference. The correlator optically Fourier transforms images of the reference and input that are thereafter nonlinearly transformed and inverse Fourier transformed by a processor to determine the presence or absence of a correlation spike indicative of authenticity.Type: ApplicationFiled: November 28, 2003Publication date: May 27, 2004Inventors: Andrew A. Kostrzewski, Gajendra D. Savant, Tomasz P. Jannson, Joanna L. Jannson
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Patent number: 6595644Abstract: A dynamic time multiplexed holographic system including a holographic screen and a projector that projects successive perspective images onto the holographic screen. The projector includes a rotating polygon that provides successive image slices to the holographic screen and a spatial light modulator that provides successive image slices to the rotating polygon. The holographic screen refracts the successive perspective images perpendicular to the holographic screen.Type: GrantFiled: August 7, 2001Date of Patent: July 22, 2003Assignee: Physical Optics CorporationInventors: Andrew A. Kostrzewski, Tin M. Aye, Tomasz P. Jannson, Gajendra D. Savant
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Publication number: 20020176624Abstract: Methods and apparatuses for still image compression, video compression and automatic target recognition are disclosed. The method of still image compression uses isomorphic singular manifold projection whereby surfaces of objects having singular manifold representations are represented by best match canonical polynomials to arrive at a model representation. The model representation is compared with the original representation to arrive at a difference. If the difference exceeds a predetermined threshold, the difference data are saved and compressed using standard lossy compression. The coefficients from the best match polynomial together with the difference data, if any, are then compressed using lossless compression. The method of motion estimation for enhanced video compression sends I frames on an “as-needed” basis, based on comparing the error between segments of a current frame and a predicted frame.Type: ApplicationFiled: December 21, 2000Publication date: November 28, 2002Applicant: PHYSICAL OPTICS CORPORATIONInventors: Andrew Kostrzewski, Igor Ternovskiy, Tomasz P. Jannson
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Patent number: 6487312Abstract: Methods and apparatuses for still image compression, video compression and automatic target recognition are disclosed. The method of still image compression uses isomorphic singular manifold projection whereby surfaces of objects having singular manifold representations are represented by best match canonical polynomials to arrive at a model saved and compressed using standard lossy compression. The coefficients from the best match polynomial together with the difference data, if any, are then compressed using lossless compression. The method of motion estimation for inhanced video compression sends I frames on an “as needed” basis, based on comparing the error between segments of a current frame and a predicted frame. If the error exceeds a predetermined threshold, which can be based on program content, the next frame sent will be an I frame.Type: GrantFiled: December 21, 2000Date of Patent: November 26, 2002Assignee: Physical Optics CorporationInventors: Andrew Kostrzewski, Igor Ternovskiy, Tomasz P. Jannson
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Patent number: 6462888Abstract: A diffuser master is provided which is manufactured mechanically instead of holographically. The master can be made from a suitable substrate including relatively hard materials such as plastic, glass or metal. A substrate having a first side is worked to form a diffuser surface relief structure thereon. The substrate can be buffed using a buffing agent of a selected grit in order to form surface scratches in the first side of the substrate. The substrate can also be blasted with shot particles in order to form indentations and depressions in the first side. The substrate can alternatively be acid or alkali etched in order to form surface irregularities in the first side. The scratches, depressions or irregularities can be formed in order to create a desired surface relief and hence desired diffuser output characteristics.Type: GrantFiled: January 12, 2001Date of Patent: October 8, 2002Assignee: Physical Optics CorporationInventors: Gajendra D. Savant, Kevin H. Yu, Andrew A. Kostrzewski
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Publication number: 20020034006Abstract: A dynamic time multiplexed holographic system including a holographic screen and a projector that projects successive perspective images onto the holographic screen. The projector includes a rotating polygon that provides successive image slices to the holographic screen and a spatial light modulator that provides successive image slices to the rotating polygon. The holographic screen refracts the successive perspective images perpendicular to the holographic screen.Type: ApplicationFiled: August 7, 2001Publication date: March 21, 2002Inventors: Andrew A. Kostrzewski, Tin M. Aye, Tomasz P. Jannson, Gajendra D. Savant
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Publication number: 20020015532Abstract: Methods and apparatuses for still image compression, video compression and automatic target recognition are disclosed. The method of still image compression uses isomorphic singular manifold projection whereby surfaces of objects having singular manifold representations are represented by best match canonical polynomials to arrive at a model representation. The model representation is compared with the original representation to arrive at a difference. If the difference exceeds a predetermined threshold, the difference data are saved and compressed using standard lossy compression. The coefficients from the best match polynomial together with the difference data, if any, are then compressed using lossless compression. The method of motion estimation for enhanced video compression sends I frames on an “as-needed” basis, based on comparing the error between segments of a current frame and a predicted frame.Type: ApplicationFiled: December 21, 2000Publication date: February 7, 2002Applicant: PHYSICAL OPTICS CORPORATIONInventors: Andrew Kostrzewski, Igor Ternovskiy, Tomasz P. Jannson
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Publication number: 20010038492Abstract: A diffuser master is provided which is manufactured mechanically instead of holographically. The master can be made from a suitable substrate including relatively hard materials such as plastic, glass or metal. A substrate having a first side is worked to form a diffuser surface relief structure thereon. The substrate can be buffed using a buffing agent of a selected grit in order to form surface scratches in the first side of the substrate. The substrate can also be blasted with shot particles in order to form indentations and depressions in the first side. The substrate can alternatively be acid or alkali etched in order to form surface irregularities in the first side. The scratches, depressions or irregularities can be formed in order to create a desired surface relief and hence desired diffuser output characteristics.Type: ApplicationFiled: January 12, 2001Publication date: November 8, 2001Applicant: Physical Optics CorporationInventors: Gajendra D. Savant, Kevin H. Yu, Andrew A. Kostrzewski
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Publication number: 20010028743Abstract: Methods and apparatuses for still image compression, video compression and automatic target recognition are disclosed. The method of still image compression uses isomorphic singular manifold projection whereby surfaces of objects having singular manifold representations are represented by best match canonical polynomials to arrive at a model representation. The model representation is compared with the original representation to arrive at a difference. If the difference exceeds a predetermined threshold, the difference data are saved and compressed using standard lossy compression. The coefficients from the best match polynomial together with the difference data, if any, are then compressed using lossless compression. The method of motion estimation for enhanced video compression sends I frames on an “as-needed” basis, based on comparing the error between segments of a current frame and a predicted frame.Type: ApplicationFiled: December 21, 2000Publication date: October 11, 2001Applicant: PHYSICAL OPTICS CORPORATION:Inventors: Andrew Kostrzewski, Igor Ternovskiy, Tomasz P. Jannson
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Patent number: 6241903Abstract: A diffuser master is provided which is manufactured mechanically instead of holographically. The master can be made from a suitable substrate including relatively hard materials such as plastic, glass or metal. A substrate having a first side is worked to form a diffuser surface relief structure thereon. The substrate can be buffed using a buffing agent of a selected grit in order to form surface scratches in the first side of the substrate. The substrate can also be blasted with shot particles in order to form indentations and depressions in the first side. The substrate can alternatively be acid or alkali etched in order to form surface irregularities in the first side. The scratches, depressions or irregularities can be formed in order to create a desired surface relief and hence desired diffuser output characteristics.Type: GrantFiled: August 20, 1998Date of Patent: June 5, 2001Assignee: Physical Optics CorporationInventors: Gajendra D. Savant, Kevin H. Yu, Andrew A. Kostrzewski
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Publication number: 20010002355Abstract: A diffuser master is provided which is manufactured mechanically instead of holographically. The master can be made from a suitable substrate including relatively hard materials such as plastic, glass or metal. A substrate having a first side is worked to form a diffuser surface relief structure thereon. The substrate can be buffed using a buffing agent of a selected grit in order to form surface scratches in the first side of the substrate. The substrate can also be blasted with shot particles in order to form indentations and depressions in the first side. The substrate can alternatively be acid or alkali etched in order to form surface irregularities in the first side. The scratches, depressions or irregularities can be formed in order to create a desired surface relief and hence desired diffuser output characteristics.Type: ApplicationFiled: January 12, 2001Publication date: May 31, 2001Applicant: Physical Optics CoporationInventors: Gajendra D. Savant, Kevin H. Yu, Andrew A. Kostrzewski
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Publication number: 20010001459Abstract: A diffuser master is provided which is manufactured mechanically instead of holographically. The master can be made from a suitable substrate including relatively hard materials such as plastic, glass or metal. A substrate having a first side is worked to form a diffuser surface relief structure thereon. The substrate can be buffed using a buffing agent of a selected grit in order to form surface scratches in the first side of the substrate. The substrate can also be blasted with shot particles in order to form indentations and depressions in the first side. The substrate can alternatively be acid or alkali etched in order to form surface irregularities in the first side. The scratches, depressions or irregularities can be formed in order to create a desired surface relief and hence desired diffuser output characteristics.Type: ApplicationFiled: January 12, 2001Publication date: May 24, 2001Applicant: Physical Optics CorporationInventors: Gajendra D. Savant, Kevin H. Yu, Andrew A. Kostrzewski
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Patent number: 6167155Abstract: Methods and apparatuses for still image compression, video compression and automatic target recognition are disclosed. The method of still image compression uses isomorphic singular manifold projection whereby surfaces of objects having singular manifold representations are represented by best match canonical polynomials to arrive at a model representation. The model representation is compared with the original representation to arrive at a difference. If the difference exceeds a predetermined threshold, the difference data are saved and compressed using standard lossy compression. The coefficients from the best match polynomial together with the difference data, if any, are then compressed using lossless compression. The method of motion estimation for enhanced video compression sends I frames on an "as-needed" basis, based on comparing the error between segments of a current frame and a predicted frame.Type: GrantFiled: July 28, 1997Date of Patent: December 26, 2000Assignee: Physical Optics CorporationInventors: Andrew Kostrzewski, Igor Ternovskiy, Tomasz P. Jannson
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Patent number: 6137912Abstract: A method for compressing multiple channels of data using an MPEG-compatible motion estimation technique. The method determines the differences between frames within each channel and among the channels and encodes those differences. To facilitate compression, some of the frames are predicted and some of the frames are skipped. The differences between the current frame and the predicted frame for each channel are computed for each successive group of frames, and then compared, after each group of frames of each channel is encoded, to a threshold level E.sub.0. In the event that, for any of the groups of frames, the difference between the current frame and the predicted frame of any of the channels reaches the threshold, the method of the present system will insert an I-frame into the sequence of encoded frames, thus restarting the encoding process with an I-frame.Type: GrantFiled: August 19, 1998Date of Patent: October 24, 2000Assignee: Physical Optics CorporationInventors: Andrew A. Kostrzewski, Michael A. Piliavin
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Patent number: 5995742Abstract: A method of rapid prototyping a lighting system which is at least one of folded path and multifaceted includes determining output power of the lighting system by calculating phase space density. A method of rapid prototyping a lighting system comprises ray tracing the lighting system, determining photometric quantities which describe the lighting system based on the ray tracing step, and providing a stereoscopic three-dimensional rendering of the lighting system based on the determining step. The three-dimensional renderings reveal any hidden pseudo-image artifacts in a lighting system before the lighting system is actually fabricated. A computer system for rapid prototyping a lighting system comprises a plurality of slave processors networked to a host processor. The slave processor and the master processor cooperate to ray trace the lighting system, and the slave processors perform homogeneous independent tasks.Type: GrantFiled: July 25, 1997Date of Patent: November 30, 1999Assignee: Physical Optics CorporationInventors: Tomasz P. Jannson, Stephen A. Kupiec, Andrew Kostrzewski, Mike Rud, Indra Tengara, Anatoly Vasiliev, Jeongdal Kim
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Patent number: 5886675Abstract: An autostereoscopic display system including: I) image signal electronics; II) a first projector including: A) a first light source 33; B) a first spatial light modulator 35 optically connected to said first light source and electrically connected to said image signal electronics; and C) a first image delivery system optically connected to said first spatial light modulator; III) a second projector connected to said first projector, said second projector including: A) a second light source 34; B) a second spatial light modulator 36 optically connected to said second light source and electrically connected to said image signal electronics; and C) a second image delivery system optically connected to said second spatial light modulator; IV) a fan-out multiplexer 39 optically connected to both said first image delivery system and said second image delivery system, said fan-out multiplexer being characterized by a viewing zone period and a viewing region period; and V) a binary head tracker 40 electrically connecType: GrantFiled: July 5, 1995Date of Patent: March 23, 1999Assignee: Physical Optics CorporationInventors: Tin M. Aye, Tomasz P. Jannson, Andrew Kostrzewski, Gajendra D. Savant
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Patent number: 5461475Abstract: Apparatus for analyzing a spectral signature, including: a light source; a spatial light modulator connected to the light source, the spatial light modulator modulating light from the light source in accordance with spatial features of the spectral signature; an optic system upon which modulated light from the spatial light modulator is incident, the optic system filtering the modulated light; a hologram illuminated with filtered, modulated light from the optic system, the hologram outputting an optical identification of the spectral signature; and a detector upon which the optical identification is incident, the detector detecting the optical identification.Type: GrantFiled: February 2, 1994Date of Patent: October 24, 1995Assignee: Physical Optics CorporationInventors: Jeremy Lerner, Taiwei Lu, Shing-Hong F. Lin, Andrew Kostrzewski, Hung Chou