Patents by Inventor Joseph Spagnolia
Joseph Spagnolia 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: 20160313445Abstract: A lightweight, low volume, inexpensive LADAR sensor incorporating 3-D focal plane arrays is adapted specifically for personal electronic appliances. The present invention generates, at high speed, 3-D image maps and object data at short to medium ranges. The techniques and structures described may be used to extend the range of long range systems as well, though the focus is on compact, short to medium range ladar sensors suitable for use in personal electronic devices. 3-D focal plane arrays are used in a variety of physical configurations to provide useful new capabilities to a variety of personal electronic appliances.Type: ApplicationFiled: June 20, 2014Publication date: October 27, 2016Applicant: Advanced Scientific Concepts, Inc.Inventors: Howard Bailey, Patrick Gilliland, Barton Goldstein, Laurent Heughebaert, Brad Short, Joseph Spagnolia, Roger Stettner
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Patent number: 9453914Abstract: A lightweight, low volume, high performance LADAR sensor incorporating 3-D focal plane arrays is adapted specifically for terrain mapping. The present invention generates, at high speed, 3-D topographical, water surface, floating object, bathymetric, biological gas cloud, poison gas cloud, or smoke stack emission mapping data. The 3-D focal planes are used in a variety of physical configurations which provide advantages over prior art terrain mapping LADAR sensors.Type: GrantFiled: September 10, 2012Date of Patent: September 27, 2016Assignee: CONTINENTAL ADVANCED LIDAR SOLUTIONS US, INC.Inventors: Roger Stettner, Howard Bailey, Brad Short, Laurent Heughebaert, Patrick Gilliland, Joseph Spagnolia, Bart Goldstein
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Patent number: 9420264Abstract: A lightweight, low volume, inexpensive LADAR sensor incorporating 3-D focal plane arrays is adapted specifically for modular manufacture and rapid field configurability and provisioning. The present invention generates, at high speed, 3-D image maps and object data at short to medium ranges. The techniques and structures described may be used to extend the range of long range systems as well, though the focus is on compact, short to medium range ladar sensors suitable for use in multi-sensor television production systems and 3-D graphics capture and moviemaking. 3-D focal plane arrays are used in a variety of physical configurations to provide useful new capabilities.Type: GrantFiled: January 29, 2016Date of Patent: August 16, 2016Assignee: Continental Advanced Lidar Solutions US, Inc.Inventors: Patrick Gilliland, Laurent Heughebaert, Joseph Spagnolia, Brad Short, Roger Stettner
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Publication number: 20160195616Abstract: A lightweight, low volume, inexpensive LADAR sensor incorporating 3-D focal plane arrays is adapted specifically for modular manufacture and rapid field configurability and provisioning. The present invention generates, at high speed, 3-D image maps and object data at short to medium ranges. The techniques and structures described may be used to extend the range of long range systems as well, though the focus is on compact, short to medium range ladar sensors suitable for use in multi-sensor television production systems and 3-D graphics capture and moviemaking. 3-D focal plane arrays are used in a variety of physical configurations to provide useful new capabilities.Type: ApplicationFiled: January 29, 2016Publication date: July 7, 2016Inventors: Patrick Gilliland, Laurent Heughebaert, Joseph Spagnolia, Brad Short, Roger Stettner
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Patent number: 9277204Abstract: A lightweight, low volume, inexpensive LADAR sensor incorporating 3-D focal plane arrays is adapted specifically for modular manufacture and rapid field configurability and provisioning. The present invention generates, at high speed, 3-D image maps and object data at short to medium ranges. The techniques and structures described may be used to extend the range of long range systems as well, though the focus is on compact, short to medium range ladar sensors suitable for use in multi-sensor television production systems and 3-D graphics capture and moviemaking. 3-D focal plane arrays are used in a variety of physical configurations to provide useful new capabilities.Type: GrantFiled: January 23, 2013Date of Patent: March 1, 2016Assignee: Advanced Scientific Concepts, Inc.Inventors: Patrick Gilliland, Laurent Heughebaert, Joseph Spagnolia, Brad Short, Roger Stettner
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Publication number: 20150346344Abstract: A system for landing or docking a mobile platform is enabled by a flash LADAR sensor having an adaptive controller with Automatic Gain Control (AGC). Range gating in the LADAR sensor penetrates through diffuse reflectors. The LADAR sensor adapted for landing/approach comprises a system controller, pulsed laser transmitter, transmit optics, receive optics, a focal plane array of detectors, a readout integrated circuit, camera support electronics and image processor, an image analysis and bias calculation processor, and a detector array bias control circuit. The system is capable of developing a complete 3-D scene from a single point of view.Type: ApplicationFiled: February 11, 2015Publication date: December 3, 2015Inventors: Patrick Gilliland, Robert W. Koseluk, Steve Penniman, Brad Short, Joseph Spagnolia, Roger Stettner
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Publication number: 20150301180Abstract: A lightweight, low volume, high performance LADAR sensor incorporating 3-D focal plane arrays is adapted specifically for terrain mapping. The present invention generates, at high speed, 3-D topographical, water surface, floating object, bathymetric, biological gas cloud, poison gas cloud, or smoke stack emission mapping data. The 3-D focal planes are used in a variety of physical configurations which provide advantages over prior art terrain mapping LADAR sensors.Type: ApplicationFiled: September 10, 2012Publication date: October 22, 2015Applicant: ADVANCED SCIENTIFIC CONCEPTS INC.Inventors: Roger Stettner, Howard Bailey, Brad Short, Laurent Heughebaert, Patrick Gilliland, Joseph Spagnolia, Bart Goldstein
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Publication number: 20140340487Abstract: A lightweight, low volume, inexpensive LADAR sensor incorporating 3-D focal plane arrays is adapted specifically for modular manufacture and rapid field configurability and provisioning. The present invention generates, at high speed, 3-D image maps and object data at short to medium ranges. The techniques and structures described may be used to extend the range of long range systems as well, though the focus is on compact, short to medium range ladar sensors suitable for use in multi-sensor television production systems and 3-D graphics capture and moviemaking. 3-D focal plane arrays are used in a variety of physical configurations to provide useful new capabilities.Type: ApplicationFiled: January 23, 2013Publication date: November 20, 2014Applicant: Advanced Scientific Concepts, Inc.Inventors: Patrick Gilliland, Laurent Heughebaert, Joseph Spagnolia, Brad Short, Roger Stettner
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Patent number: 8804101Abstract: A lightweight, low volume, inexpensive LADAR sensor incorporating 3-D focal plane arrays is adapted specifically for personal electronic appliances. The present invention generates, at high speed, 3-D image maps and object data at short to medium ranges. The techniques and structures described may be used to extend the range of long range systems as well, though the focus is on compact, short to medium range ladar sensors suitable for use in personal electronic devices. 3-D focal plane arrays are used in a variety of physical configurations to provide useful new capabilities to a variety of personal electronic appliances.Type: GrantFiled: March 16, 2012Date of Patent: August 12, 2014Assignee: Advanced Scientific Concepts, Inc.Inventors: Joseph Spagnolia, Howard Bailey, Patrick Gilliland, Barton Goldstein, Brad Short, Laurent Heughebaert, Roger Stettner
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Publication number: 20130242283Abstract: A lightweight, low volume, inexpensive LADAR sensor incorporating 3-D focal plane arrays is adapted specifically for personal electronic appliances. The present invention generates, at high speed, 3-D image maps and object data at short to medium ranges. The techniques and structures described may be used to extend the range of long range systems as well, though the focus is on compact, short to medium range ladar sensors suitable for use in personal electronic devices. 3-D focal plane arrays are used in a variety of physical configurations to provide useful new capabilities to a variety of personal electronic appliances.Type: ApplicationFiled: March 16, 2012Publication date: September 19, 2013Applicant: Advanced Scientific Concepts, Inc.Inventors: Howard Bailey, Patrick Gilliland, Barton Goldstein, Laurent Heughebaert, Brad Short, Joseph Spagnolia, Roger Stettner
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Patent number: 5563405Abstract: An adaptive dynamic range control circuit architecture is disclosed that enables an IR-FPA (10) to achieve a higher dynamic range. The circuit architecture significantly reduces a resolution required for an analog-to-digital converter (ADC 24) that converts the analog output signals of the IR-FPA to a digital representation. In a preferred embodiment of this invention a column CTIA readout integrated circuit architecture is used in conjunction with the adaptive feedback circuitry of this invention to provide pedestal suppression on a per-pixel basis for the IR-FPA. The use of the circuitry of this invention modifies the conventional column CTIA amplifier configuration to a configuration having an auto-zeroed charge ratioed gain stage (50). One advantage to this technique is that by suppressing the charge pedestal, the usable signal output from the IR-FPA can be brought off-chip to the readout integrated circuit at a much higher gain.Type: GrantFiled: April 28, 1995Date of Patent: October 8, 1996Assignee: Santa Barbara Research CenterInventors: James T. Woolaway, II, Joseph A. Spagnolia, William H. Frye
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Patent number: 5420421Abstract: A method and apparatus for non-uniformity compensation for infrared focal plane arrays in an infrared imaging device (10) including a calibration operation and a correction operation. The calibration operation measures the response (24) generated by the detector elements (14) in the focal plane array (16) to a wide range of known signal flux levels of infrared radiation (22) produced by a uniform black body under controlled conditions. The responses (24) are then stored as a digital video signal (27) in a look-up table memory (38). The correction operation achieves the near real-time compensation of a second response of the detector element (14) to the signal flux level of infrared radiation (22) produced by objects in the field of view surveyed by the imaging device (10) by comparing the second response to the stored digital video signals (27) and interpolates the second response to a corrected digital video output signal (31).Type: GrantFiled: October 12, 1994Date of Patent: May 30, 1995Assignee: Hughes Aircraft CompanyInventors: Gary M. Lindgren, Joseph A. Spagnolia, Anthony J. Kay