Patents by Inventor David J. Chapman
David J. Chapman 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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Patent number: 11954214Abstract: Methods and systems for managing and/or processing a blockchain to maintain data security for confidential and/or personal data are provided. According to certain aspects, the disclosed data security techniques may enable access sharing functionality utilizing the blockchain. For example, access sharing may be utilized to share policy information. The policy information may be associated with a smart contract. Accordingly, the policy information may be encrypted using a public key for the smart contract and compiled into a block of the blockchain. In response to a request to provide access to the information to a particular node, the private key for the smart contract may be encrypted using the public key for the particular node and compiled into a block of the blockchain.Type: GrantFiled: February 1, 2023Date of Patent: April 9, 2024Assignee: STATE FARM MUTUAL AUTOMOBILE INSURANCE COMPANYInventors: Melinda Teresa Magerkurth, Eric Bellas, Jaime Skaggs, Shawn M. Call, Eric R. Moore, Vicki King, Burton J. Floyd, David Turrentine, Steven T. Olson, Timothy Caleb Wells, Corin Rebekah Chapman, Edward W. Breitweiser, Robert Gomez, Shelia Cummings Smith
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Publication number: 20240111881Abstract: Methods and systems for processing a blockchain comprising a plurality of immutable sales records corresponding to sales made by agents of an entity are provided. According to certain aspects, a transaction request indicating a sale made by an agent of the entity may be received at a first node. A block including a sales record indicating the sale made by the agent may be added to a blockchain and transmitted to another node for validation. The first node may add the block to a copy of the blockchain, where the block may be identified by a hash value that references a previous block in the blockchain that includes at least one additional sales record.Type: ApplicationFiled: December 7, 2023Publication date: April 4, 2024Inventors: Melinda Teresa Magerkurth, Eric Bellas, Jaime Skaggs, Shawn M. Call, Eric R. Moore, Vicki King, Burton J. Floyd, David Turentine, Steven T. Olson, Timothy Caleb Wells, Corin Rebekah Chapman, Edward W. Breitweiser, Robert Gomez, Shelia Cummings Smith
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Patent number: 11914728Abstract: Methods and systems for managing and/or processing a blockchain to maintain data security for confidential and/or personal data are provided. According to certain aspects, the disclosed data security techniques may enable access sharing functionality utilizing the blockchain. For example, access sharing may be utilized to file documents, share policy information, and/or comply with an audit. The data security techniques disclosed herein also enable the use of smart contracts to transfer funds associated with payment obligations and/or other forms of blockchain based payments, comply with anti-money laundering requirements, report industry data, validate interest payments and/or maintain agent sales data. Data security may be achieved through the use of public key/private key encryption techniques.Type: GrantFiled: October 26, 2022Date of Patent: February 27, 2024Assignee: STATE FARM MUTUAL AUTOMOBILE INSURANCE COMPANYInventors: Melinda Teresa Magerkurth, Eric Bellas, Jaime Skaggs, Shawn M. Call, Eric R. Moore, Vicki King, Burton J. Floyd, David Turrentine, Steven T. Olson, Timothy Caleb Wells, Corin Rebekah Chapman, Edward W. Breitweiser, Robert Gomez, Shelia Cummings Smith
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Patent number: 9285538Abstract: A wavelength selective device including an arrayed waveguide grating is disclosed. The wavelength selective device includes a MEMS mirror, which couples light from an input port to an elongate aperture of an input star coupler or slab of the arrayed waveguide grating. A controller tilts the MEMS mirror in response to a sensed temperature change of the arrayed waveguide grating, thereby lessening a sensitivity of the arrayed waveguide grating to the temperature change. The MEMS mirror can also be tilted to shift wavelengths of the wavelength channels of the arrayed waveguide grating by pre-defined amounts upon receiving a corresponding remote command.Type: GrantFiled: October 22, 2013Date of Patent: March 15, 2016Assignee: Lumentum Operations LLCInventors: Jinxi Shen, Barthelemy Fondeur, Wenlin Jin, David J. Chapman, Niki Liu
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Patent number: 8983244Abstract: An optical interferometer for demodulating a differential phase shift keying optical signal includes a planar lightwave circuit and at least one free space delay line optically coupled to the planar lightwave circuit. The planar lightwave circuit has a waveguide splitter, a waveguide coupler, and a phase adjuster. In operation, the splitter splits the optical signal into equal portions, the phase adjuster adjusts the relative phase of the optical signal portions, and the free space delay line provides one-bit delay between the portions of the optical signal. The delayed signals are mixed in the waveguide coupler. The free space delay line can be made variable for adjustment of the bit delay for operation at different bit rates, and/or for optimization of the interferometer performance.Type: GrantFiled: January 30, 2012Date of Patent: March 17, 2015Assignee: JDS Uniphase CorporationInventors: Jinxi Shen, Hiroaki Yamada, David J. Chapman, Shanrui Ren
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Publication number: 20140112621Abstract: A wavelength selective device including an arrayed waveguide grating is disclosed. The wavelength selective device includes a MEMS mirror, which couples light from an input port to an elongate aperture of an input star coupler or slab of the arrayed waveguide grating. A controller tilts the MEMS mirror in response to a sensed temperature change of the arrayed waveguide grating, thereby lessening a sensitivity of the arrayed waveguide grating to the temperature change. The MEMS mirror can also be tilted to shift wavelengths of the wavelength channels of the arrayed waveguide grating by pre-defined amounts upon receiving a corresponding remote command.Type: ApplicationFiled: October 22, 2013Publication date: April 24, 2014Inventors: Jinxi SHEN, Barthelemy Fondeur, Wenlin JIN, David J. CHAPMAN, Niki LIU
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Patent number: 8340523Abstract: A tunable PLC optical filter having sequentially connected thermally tunable Mach-Zehnder (MZ) interferometers is described. The MZ interferometers, having free spectral ranges matching ITU frequency grid spacing, are tuned so as to have a common passband centered on the frequency of the signal being selected, while having at least one of the stopbands centered on any other ITU frequency. Any other optical channel that may be present at any other ITU frequency is suppressed as a result. The PLC chip, including a zero-dispersion lattice-filter interleaver stage, a switchable fine-resolution stage and, or a retroreflector for double passing the filter, is packaged into a hot-pluggable XFP transceiver package. A compensation heater is used to keep constant the amount of heat applied to the PLC chip inside the XFP package, so as to lessen temperature variations upon tuning of the PLC optical filter.Type: GrantFiled: February 20, 2009Date of Patent: December 25, 2012Assignee: JDS Uniphase CorporationInventors: Jinxi Shen, Jyoti K. Bhardwaj, Barthelemy Fondeur, Douglas E. Crafts, Robert J. Brainard, Boping Xie, David J. Chapman
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Publication number: 20120195544Abstract: An optical interferometer for demodulating a differential phase shift keying optical signal includes a planar lightwave circuit and at least one free space delay line optically coupled to the planar lightwave circuit. The planar lightwave circuit has a waveguide splitter, a waveguide coupler, and a phase adjuster. In operation, the splitter splits the optical signal into equal portions, the phase adjuster adjusts the relative phase of the optical signal portions, and the free space delay line provides one-bit delay between the portions of the optical signal. The delayed signals are mixed in the waveguide coupler. The free space delay line can be made variable for adjustment of the bit delay for operation at different bit rates, and/or for optimization of the interferometer performance.Type: ApplicationFiled: January 30, 2012Publication date: August 2, 2012Inventors: Jinxi Shen, Hiroaki Yamada, David J. Chapman, Shanrui Ren
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Patent number: 8213752Abstract: A coherent planar lightwave circuit (PLC) optical mixer chip is described comprising a matched pair of symmetrical four-coupler interferometers for in-phase and in-quadrature detection of two polarization components of light using a polarization diversity arrangement. The waveguide structure of the chip is symmetrical about two orthogonal central axes of the chip, whereby the effect of temperature gradients on the mixer is reduced. A light traveling from an input to an output of any of the two interferometers is cross-coupled by one of the two couplers it passes through, and is bar-coupled by the other of the two couplers, so as to compensate for polarization, wavelength, and manufacturing process dependence of bar-coupling with that of cross-coupling.Type: GrantFiled: June 9, 2009Date of Patent: July 3, 2012Inventors: David J. Chapman, David J. Dougherty
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Patent number: 7861200Abstract: A method of characterizing a device under test (DUT) includes determining a goal function associated with a setup and hold time for the DUT. A minimum value for the goal function is determined by iteratively adjusting setup and hold times for input data to the DUT, and determining whether the DUT performs according to specifications. The minimum goal function value will reflect minimum setup and hold time values based on weights associated with the goal function. This allows the minimum setup and hold times for the DUT to be characterized with a small number of binary searches, improving the speed of the characterization process.Type: GrantFiled: March 24, 2008Date of Patent: December 28, 2010Assignee: Freescale Semiconductor, Inc.Inventors: Yifeng Yang, Yun Zhang, Yibin Xia, David J. Chapman
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Publication number: 20100014802Abstract: A coherent planar lightwave circuit (PLC) optical mixer chip is described comprising a matched pair of symmetrical four-coupler interferometers for in-phase and in-quadrature detection of two polarization components of light using a polarization diversity arrangement. The waveguide structure of the chip is symmetrical about two orthogonal central axes of the chip, whereby the effect of temperature gradients on the mixer is reduced. A light traveling from an input to an output of any of the two interferometers is cross-coupled by one of the two couplers it passes through, and is bar-coupled by the other of the two couplers, so as to compensate for polarization, wavelength, and manufacturing process dependence of bar-coupling with that of cross-coupling.Type: ApplicationFiled: June 9, 2009Publication date: January 21, 2010Inventors: David J. Chapman, David J. Dougherty
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Publication number: 20090263142Abstract: A tunable PLC optical filter having sequentially connected thermally tunable Mach-Zehnder (MZ) interferometers is described. The MZ interferometers, having free spectral ranges matching ITU frequency grid spacing, are tuned so as to have a common passband centered on the frequency of the signal being selected, while having at least one of the stopbands centered on any other ITU frequency. Any other optical channel that may be present at any other ITU frequency is suppressed as a result. The PLC chip, including a zero-dispersion lattice-filter interleaver stage, a switchable fine-resolution stage and, or a retroreflector for double passing the filter, is packaged into a hot-pluggable XFP transceiver package. A compensation heater is used to keep constant the amount of heat applied to the PLC chip inside the XFP package, so as to lessen temperature variations upon tuning of the PLC optical filter.Type: ApplicationFiled: February 20, 2009Publication date: October 22, 2009Inventors: Jinxi Shen, Jyoti K. Bhardwaj, Barthelemy Fondeur, Douglas E. Crafts, Robert J. Brainard, Boping Xie, David J. Chapman
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Publication number: 20090241080Abstract: A method of characterizing a device under test (DUT) includes determining a goal function associated with a setup and hold time for the DUT. A minimum value for the goal function is determined by iteratively adjusting setup and hold times for input data to the DUT, and determining whether the DUT performs according to specifications. The minimum goal function value will reflect minimum setup and hold time values based on weights associated with the goal function. This allows the minimum setup and hold times for the DUT to be characterized with a small number of binary searches, improving the speed of the characterization process.Type: ApplicationFiled: March 24, 2008Publication date: September 24, 2009Applicant: FREESCALE SEMICONDUCTOR, INC.Inventors: Yifeng Yang, Yun Zhang, Yibin Xia, David J. Chapman
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Patent number: 7077773Abstract: A drive assembly for a closed loop cable system in which a flexible driver member drives a door or the like back and forth has the flexible drive member wrapped around and driven by a drive pulley. The drive assembly includes a motor unit having a motor shaft that rotates about a drive axis for rotating the drive pulley about a pulley axis, and a tensioning mechanism for adjusting the position of the pulley axis with respect to the drive axis responsive to tension in the flexible drive member.Type: GrantFiled: April 21, 2003Date of Patent: July 18, 2006Assignee: Delphi Technologies, Inc.Inventors: David J. Chapman, John R. Rice
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Publication number: 20040209720Abstract: A drive assembly for a closed loop cable system in which a flexible driver member drives a door or the like back and forth has the flexible drive member wrapped around and driven by a drive pulley. The drive assembly includes a motor unit having a motor shaft that rotates about a drive axis for rotating the drive pulley about a pulley axis, and a tensioning mechanism for adjusting the position of the pulley axis with respect to the drive axis responsive to tension in the flexible drive member.Type: ApplicationFiled: April 21, 2003Publication date: October 21, 2004Inventors: David J. Chapman, John R. Rice
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Publication number: 20040095250Abstract: A method and apparatus for providing an obstacle detection system for a vehicle having an automated door or moveable panel, the detection system having a sensing system including a plurality of emitters and detectors disposed proximate to the automated moveable panel or door of the vehicle and a detection circuit in communication with the sensing system, the detecting detection circuit generating an output signal when an object is detected by the sensing system, the output signal is received by a motor control unit of the moveable panel or door and movement of the moveable panel or door is prevented when the output signal is received.Type: ApplicationFiled: November 14, 2002Publication date: May 20, 2004Inventors: David J. Chapman, Lloyd W. Rogers
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Patent number: 6697553Abstract: A planar lightwave circuit includes an arrayed waveguide grating (AWG), with input and output waveguides, partially curved array waveguides with respective length differences, and planar waveguide regions for focusing optical energy between the input/output and array waveguides. Optimal waveguide widths and spacing along the planar waveguide region facets are disclosed, which are largely determinative of AWG size and optical performance. Also disclosed are optimal cross-sectional waveguide dimensions (e.g., width and height); modified index of refraction difference between the waveguide core and cladding regions; and optimal array waveguide lengths, path length differences, and free spectral range. These features, especially when combined with advanced fiber attachment, passivation and packaging techniques, result in high-yield, high-performance AWGs (both gaussian and flattop versions).Type: GrantFiled: February 15, 2002Date of Patent: February 24, 2004Assignee: JDS Uniphase CorporationInventors: Jyoti Kiron Bhardwaj, Robert James Brainard, David J. Chapman, Douglas E. Crafts, Zi-Wen Dong, David Dougherty, Erik W. Egan, James F. Farrell, Mark B. Farrelly, Niranjan Gopinathan, Kenzo Ishida, David K. Nakamoto, Thomas Thuan Nguyen, Suresh Ramalingam, Steven M. Swain, Sanjay M. Thekdi, Anantharaman Vaidyanathan, Hiroaki Yamada, Yingchao Yan
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Publication number: 20030156789Abstract: A planar lightwave circuit includes an arrayed waveguide grating (AWG), with input and output waveguides, partially curved array waveguides with respective length differences, and planar waveguide regions for focusing optical energy between the input/output and array waveguides. Optimal waveguide widths and spacing along the planar waveguide region facets are disclosed, which are largely determinative of AWG size and optical performance. Also disclosed are optimal cross-sectional waveguide dimensions (e.g., width and height); modified index of refraction difference between the waveguide core and cladding regions; and optimal array waveguide lengths, path length differences, and free spectral range. These features, especially when combined with advanced fiber attachment, passivation and packaging techniques, result in high-yield, high-performance AWGs (both gaussian and flattop versions).Type: ApplicationFiled: February 15, 2002Publication date: August 21, 2003Inventors: Jyoti Kiron Bhardwaj, Robert James Brainard, David J. Chapman, Douglas E. Crafts, Zi-Wen Dong, David Dougherty, Erik W. Egan, James F. Farrell, Mark B. Farrelly, Niranjan Gopinathan, Kenzo Ishida, David K. Nakamoto, Thomas Thuan Nguyen, Suresh Ramalingam, Steven M. Swain, Sanjay M. Thekdi, Anantharaman Vaidyanathan, Hiroaki Yamada, Yingchao Yan
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Patent number: 6606425Abstract: An optical component package, in which a transfer molded layer of material (e.g., syntactic foam in one embodiment) is formed at least partially around, or entirely around, the optical component to provide structural and thermal insulation around the component. The optical component may be a planar lightwave circuit (PLC), with a protective passivation layer formed between the PLC and the layer of syntactic foam, to de-couple stresses and thermal transfer between the PLC and the layer of syntactic foam. Strengthening caps, fiber assemblies, and a heater may be provided with the PLC assembly, around which the layer of syntactic foam can also be formed. The protective passivation layer can also be formed between these structures and the syntactic foam; in one embodiment between at least two strengthening caps formed on opposing edges of the PLC. The disclosed package provides numerous structural, thermal and size benefits.Type: GrantFiled: March 18, 2002Date of Patent: August 12, 2003Assignee: JDS Uniphase CorporationInventors: Douglas E. Crafts, Kenzo Ishida, David J. Chapman, Duane Cook, James F. Farrell, Suresh Ramalingam, Steven M. Swain
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Patent number: 6583388Abstract: An optical component package, having an insulative buffer placed against the component, enclosing a first insulative cavity against a temperature-sensitive portion of the component. An outer package provides additional insulation for the component. The buffer may be formed of a soft insulative material, and pressed against the component by an inner surface of the outer package. For the PLC embodiments disclosed, the buffer is planar and includes a frame projecting from its perimeter toward the component to form the cavity. A heater may be positioned proximate the optical component to control its temperature, in which case a second buffer may be placed against the heater, enclosing a second insulative cavity against the heater, aligned with the temperature-sensitive portion of the component. The buffers and insulative cavities of the present invention provide important insulation for optical areas requiring precise temperature control for proper operation.Type: GrantFiled: November 13, 2001Date of Patent: June 24, 2003Assignee: JDS Uniphase CorporationInventors: Douglas E. Crafts, David J. Chapman, Steven M. Swain