Patents by Inventor Tomasz P. Jannson
Tomasz P. Jannson 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: 20010010694Abstract: Systems and methods for connecting and configuring a communication network are described. A network includes a first router; a tie-line having a plurality of full duplex dedicated router interconnects connected to said first router; a second router connected to said plurality of full duplex dedicated router interconnects; a first user connected to said first router with a first full duplex loop; and a second user connected to said second router with a second full duplex loop. The systems and methods provide advantages in that bursty control information can be multiplexed with time sensitive laminar data.Type: ApplicationFiled: February 6, 2001Publication date: August 2, 2001Applicant: Physical Optics CorporationInventors: Lonnie Lindsey, Allen Panahi, Tomasz P. Jannson
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Patent number: 6266476Abstract: A monolithic element has a substrate body and at least one macro-optical characteristic integral in a first portion of the optical element. A plurality of surface micro-structures are integral in a portion of the optical element. The micro-structures are designed to homogenize light passing through the optical element to produce a predetermined pattern of smoothly varying, non-discontinuous light exiting the optical element. The light exiting the optical element is therefore altered according to both the macro-optical characteristic of the optical element as well as the homogenizing characteristics of the micro-structures.Type: GrantFiled: August 25, 1998Date of Patent: July 24, 2001Assignee: Physical Optics CorporationInventors: Rick L. Shie, Jeffrey A. Laine, Gajendra D. Savant, Tomasz P. Jannson
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Patent number: 6234656Abstract: A fiber optic luminaire is arranged to couple light energy from a light source along its length. The fiber optic luminaire includes a plurality of light redirecting structures distributed along its length; the light redirecting structures are arranged to uniformly distribute by reflection light energy from the fiber optic luminaire. The light redirecting structures are preferably non-scattering structures, including structures such as microprisms, microfacets, microgrooves and micrometers. The fiber optic luminaire may be configured to a variety of shapes and to provide customized light distribution patterns.Type: GrantFiled: August 20, 1998Date of Patent: May 22, 2001Assignee: Physical Optics CorporationInventors: Abbas Hosseini, Tomasz P. Jannson, Stephen A. Kupiec, Anatoly Vasiliev
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Patent number: 6226296Abstract: Systems and methods for connecting and configuring a communication network are described. A network includes a first router; a tie-line having a plurality of full duplex dedicated router interconnects connected to said first router; a second router connected to said plurality of full duplex dedicated router interconnects; a first user connected to said first router with a first full duplex loop; and a second user connected to said second router with a second full duplex loop. The systems and methods provide advantages in that bursty control information can be multiplexed with time sensitive laminar data.Type: GrantFiled: May 21, 1997Date of Patent: May 1, 2001Assignee: Physical Optics CorporationInventors: Lonnie Lindsey, Allen Panahi, Tomasz P. Jannson
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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: 6130730Abstract: Systems and methods for providing an LGD with a collimated backlight and a non-Lambertian diffuser are described.Type: GrantFiled: November 17, 1998Date of Patent: October 10, 2000Assignee: Physical Optics CorporationInventors: Joanna L. Jannson, Tomasz P. Jannson, Jeremy M. Lerner
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Patent number: 6072551Abstract: Systems and methods for providing an LCD backlight are described. An LCD backlight system includes: a beam bending and viewing film including a first side including a surface diffuser and a second side including a plurality of substantially parallel optical elements, each of the plurality of substantially parallel optical elements including a first facet that includes a refractive surface and a second facet that includes a total internal reflection surface. The systems and methods provide advantages in that light from the LCD backlight is bright and homogenous.Type: GrantFiled: January 13, 1997Date of Patent: June 6, 2000Assignee: Physical Optics CorporationInventors: Tomasz P. Jannson, Joanna L. Jannson, Stephen A. Kupiec, Jack L. Latchinian
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Patent number: 6040171Abstract: Apparatus for analyzing biological samples includes a unique surface which promotes adhesion, growth and optical analysis of samples. The unique surface is formed at the bottom of each well of a microplate and provides increased surface area with a distribution of features operative also to shape and redirect light used to sense test results. The unique surface may be used in forms such as a monolith, a microplate, a chamber, a flask and others.Type: GrantFiled: August 21, 1998Date of Patent: March 21, 2000Assignee: Physical Optics CorporationInventors: Zonh-Zen Ho, Tomasz P. Jannson, Robert A. Lieberman, Gajendra D. Savant, Allan Wang
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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: 5838403Abstract: Systems and methods for providing an LCD with a collimated backlight and a non-Lambertian diffuser are described.Type: GrantFiled: February 14, 1996Date of Patent: November 17, 1998Assignee: Physical Optics CorporationInventors: Joanna L. Jannson, Tomasz P. Jannson, Jeremy M. Lerner
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Patent number: 5631754Abstract: Systems and methods for shaping light from a liquid crystal display are described. A holographic high contrast viewing screen embedded in a liquid crystal display includes a first substrate; a first electrode connected to said first substrate; a light shaping holographic surface relief diffuser connected to said first electrode, said light shaping holographic surface relief diffuser having a first orientation and a first refractive index; a liquid crystal adjacent said light shaping holographic surface relief diffuser, the liquid crystal having a second refractive index that is substantially equal to the first refractive index, in the absence of a driving voltage applied to the first electrode and the second electrode; an alignment layer adjacent said liquid crystal, said alignment layer having a second orientation that is substantially orthogonal to said first orientation; a second electrode connected to said alignment layer; and a second substrate connected to said second electrode.Type: GrantFiled: October 20, 1995Date of Patent: May 20, 1997Assignee: Physical Optics CorporationInventors: Tomasz P. Jannson, Tin M. Aye, Jeremy Lerner
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Patent number: 5384221Abstract: An optical storage medium including a transparent polymer and an isomerizable AZO dye, the optical storage medium being coated as a water miscible solution on a substrate so as to form a film having a thickness of from .mu.m to 100 .mu.m storing information through birefringence and having a diffraction efficiency greater than 40% at a 1 millisecond response time. The isomerizable AZO dye remains in the film and is present in a concentration of from 4.5% to 25% based on the weight of the film.Type: GrantFiled: April 21, 1993Date of Patent: January 24, 1995Assignee: Physical Optics CorporationInventors: Gajendra D. Savant, Tomasz P. Jannson
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Patent number: 5365354Abstract: A diffuser based on a phase volume holographic medium is recorded non-holographically with speckle which define non-discontinuous and smoothly varying change in the refractive index of the medium. The diffuser scatters light traveling from an entrance surface to an exit surfaces and reflection from the diffuser is substantially limited to Fresnel reflection from the entrance and exit surfaces and light exiting the exit surface is substantially non-specular.Type: GrantFiled: March 9, 1992Date of Patent: November 15, 1994Assignee: Physical Optics CorporationInventors: Tomasz P. Jannson, David G. Pelka, Tin M. Aye
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Patent number: 5305123Abstract: A 2D/3D optically controlled spatial and angular electromagnetic wave modulator is disclosed. The modulator of the present invention modulates the amplitude and direction of an electromagnetic wave such as millimeter microwaves or infrared waves by diffracting or scattering the electromagnetic wave from a semiconductor material upon which is incident a controlling lightwave. The lightwave incident upon the semiconductor is of varying intensity, and may be time varying, and changes the complex refractive permittivity of the semiconductor material. The electromagnetic wave is thus modulated in accordance with the controlling lightwave.Type: GrantFiled: January 9, 1992Date of Patent: April 19, 1994Assignee: Physical Optics CorporationInventors: Lev S. Sadovnik, Tomasz P. Jannson, Vladimir Manasson
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Patent number: 5293272Abstract: A high finesse holographic Fabry-Perot etalon and method of making a high finesse holographic Fabry-Perot etalon is disclosed. Particularly, a holographic Fabry-Perot etalon which achieves high finesse despite non-flat interfaces between the etalon media is presented. In a preferred method of fabricating a high finesse Fabry-Perot etalon, single step recording of both holograms simultaneously, with the spacer and substrates in place, is employed which preserves full phase synchronization between the holograms. In spite of imperfections or irregularities of the interface surfaces of the substrates or spacers, the holographic fringes in the holograms remain flat even for slightly different refractive indices between the various media. The position and flatness of the fringes remains similar to perfect Fabry-Perot etalon structure.Type: GrantFiled: August 24, 1992Date of Patent: March 8, 1994Assignee: Physical Optics CorporationInventors: Tomasz P. Jannson, Tin M. Aye, Jay W. Hirsh, Christopher C. Rich
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Patent number: 5278687Abstract: An optical multi-channel data communication link transmits data from a transmitter to a remote receiver. The link includes a multimode laser diode source connected to the transmitter, a device for modulating the source with each channel of data to generate a modulated light wave, and a wavelength division multiplexing device at the transmitter. The wavelength division multiplexing device has paraxial optics for multiplexing the light waves to produce a multiplexed signal. Multimode fiber optic means are connected to the multiplexer and pass the multiplexed signal to the remote receiver. A wavelength division multiplexer has paraxial optics for demultiplexing the multiplexed signals at the receiver to produce demultiplexed light waves. Each of the demultiplexed light waves are converted for use by the receiver.Type: GrantFiled: April 5, 1991Date of Patent: January 11, 1994Assignee: Physical Optics CorporationInventors: Tomasz P. Jannson, Kevin W. Shirk, Behzad M. R. Moslehi, Richard C. Kim
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Patent number: 5245404Abstract: A multiwavelength sensor for sensing light scattered from a scattering medium includes a light source, a uniform broadband reflection grating at the Littrow position, a fiber, and a detector. Light from the source is incident on the grating, which diffracts the light. The fiber has a first end into which the light diffracted from the grating is received and has a second end from which the light exits, the fiber being positioned so that the light is incident upon and scattered from the scattering medium. At least some of the light scattered from the medium is scattered back into the second end and out of the first end and incident upon the diffraction grating. Light out of the first end and diffracted from the grating is incident on the detector. The system is fully transparent so that light traveling toward the second end and light traveling back toward the first end are optically isolated and cross-talk is substantially nonexistent.Type: GrantFiled: October 18, 1990Date of Patent: September 14, 1993Assignee: Physical Optics CorportionInventors: Tomasz P. Jannson, Kevin W. Shirk, Richard C. Kim, Behzad M. R. Moslehi
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Patent number: 5221957Abstract: A holographic filter comprises a volume hologram recorded with Bragg surfaces for use in spectroscopic and spectral splitting applications. The Bragg planes in the holographic filter can be recorded to satisfy virtually any design constraint imposed upon the filter such as Raman, Lippmann, non-Snellian (slanted), curved, and multiplexed spectral filters. The holographic filter achieves maximal reduction of secondary maxima and sidelobes and obtains large wavelength selectivities, and varied grating constants.Type: GrantFiled: June 19, 1992Date of Patent: June 22, 1993Assignee: Physical Optics CorporationInventors: Tomasz P. Jannson, Joanna L. Jannson, Michael T. Feeney
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Patent number: 5153670Abstract: A holographic filter comprises a volume hologram recorded with Bragg surfaces for use in spectroscopic and spectral splitting applications. The Bragg planes in the holographic filter can be recorded to satisfy virtually any design constraint imposed upon the filter such as Raman, Lippmann, non-Snellian (slanted), curved, and multiplexed spectral filters. The holographic filter achieves maximal reduction of secondary maxima and sidelobes and obtains large wavelength selectivities, and varied grating constants.Type: GrantFiled: January 12, 1990Date of Patent: October 6, 1992Assignee: Physical Optics CorporationInventors: Tomasz P. Jannson, Joanna L. Jannson, Michael T. Feeney