Patents by Inventor Ronald Hanson
Ronald Hanson 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: 20240127357Abstract: Aspects of the invention are directed to methods and systems for efficiently communicating data between an insurer and a non-referral repair shop, e.g., vehicle repair shops that are normally not preapproved by the insurer to perform the estimating and repair work. The methods and systems described herein are particularly useful for insurers utilizing non-referral repair shops for servicing vehicles involved in insurance claims. According to aspects of this invention, the insured may be able to select a non-referral repair shop, not delegated or preapproved by the insurer, thereby generally allowing the insured to select any available vehicle repair shop.Type: ApplicationFiled: December 27, 2023Publication date: April 18, 2024Applicant: Allstate Insurance CompanyInventors: Randall M. Hanson, James A. Ledder, Charles Ronald O'halloran
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Patent number: 11369921Abstract: A contaminated gas stream can be passed through an in-line mixing device, positioned in a duct containing the contaminated gas stream, to form a turbulent contaminated gas stream. One or more of the following is true: (a) a width of the in-line mixing device is no more than about 75% of a width of the duct at the position of the in-line mixing device; (b) a height of the in-line mixing device is no more than about 75% of a height of the duct at the position of the in-line mixing device; and (c) a cross-sectional area of the mixing device normal to a direction of gas flow is no more than about 75% of a cross-sectional area of the duct at the position of the in-line mixing device. An additive can be introduced into the contaminated gas stream to cause the removal of the contaminant by a particulate control device.Type: GrantFiled: May 28, 2019Date of Patent: June 28, 2022Assignee: ADA-ES, Inc.Inventor: Ronald Hanson
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Patent number: 11343001Abstract: Quantum network nodes use light from a laser to stimulate emission of single photons. A detection station detects arrival of the photons from the quantum network nodes at a photon arrival detector. In time slots between single photon emissions, the quantum network node supply light from the laser to the detection station. The detection station measures a phase differences between light from a reference laser and the light received from different quantum network nodes in said time slots. The detection station has optical phase and/or frequency modulators between the optical inputs for light from the quantum network nodes and the photon arrival detector.Type: GrantFiled: December 5, 2019Date of Patent: May 24, 2022Assignee: Nederlandse Organisatie voor toegepast-natuurwetenschappelijk onderzoek TNOInventors: Erwin John Van Zwet, Ronald Hanson, Peter Conway Humphreys, Norbert Kalb
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Publication number: 20220029710Abstract: Quantum network nodes use light from a laser to stimulate emission of single photons. A detection station detects arrival of the photons from the quantum network nodes at a photon arrival detector. In time slots between single photon emissions, the quantum network node supply light from the laser to the detection station. The detection station measures a phase differences between light from a reference laser and the light received from different quantum network nodes in said time slots. The detection station has optical phase and/or frequency modulators between the optical inputs for light from the quantum network nodes and the photon arrival detector.Type: ApplicationFiled: December 5, 2019Publication date: January 27, 2022Inventors: Erwin John VAN ZWET, Ronald HANSON, Peter Conway HUMPHREYS, Norbert KALB
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Publication number: 20190275463Abstract: A contaminated gas stream can be passed through an in-line mixing device, positioned in a duct containing the contaminated gas stream, to form a turbulent contaminated gas stream. One or more of the following is true: (a) a width of the in-line mixing device is no more than about 75% of a width of the duct at the position of the in-line mixing device; (b) a height of the in-line mixing device is no more than about 75% of a height of the duct at the position of the in-line mixing device; and (c) a cross-sectional area of the mixing device normal to a direction of gas flow is no more than about 75% of a cross-sectional area of the duct at the position of the in-line mixing device. An additive can be introduced into the contaminated gas stream to cause the removal of the contaminant by a particulate control device.Type: ApplicationFiled: May 28, 2019Publication date: September 12, 2019Inventor: Ronald Hanson
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Patent number: 10350545Abstract: A contaminated gas stream can be passed through an in-line mixing device, positioned in a duct containing the contaminated gas stream, to form a turbulent contaminated gas stream. One or more of the following is true: (a) a width of the in-line mixing device is no more than about 75% of a width of the duct at the position of the in-line mixing device; (b) a height of the in-line mixing device is no more than about 75% of a height of the duct at the position of the in-line mixing device; and (c) a cross-sectional area of the mixing device normal to a direction of gas flow is no more than about 75% of a cross-sectional area of the duct at the position of the in-line mixing device. An additive can be introduced into the contaminated gas stream to cause the removal of the contaminant by a particulate control device.Type: GrantFiled: November 24, 2015Date of Patent: July 16, 2019Assignee: ADA-ES, Inc.Inventor: Ronald Hanson
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Patent number: 10284804Abstract: An image module comprising: (a) an imaging device that graphically or pictorially captures images of underwater sea life (b) a module housing including one or more components that processing an image generated by the imaging device; wherein the image module is discrete from a marine display and is capable of being connected to the marine display so that the graphic or pictorial images of underwater seal life captured by the imaging device are displayed.Type: GrantFiled: May 7, 2018Date of Patent: May 7, 2019Assignee: ELECTRONIC TECHNOLOGIES LLCInventors: Jon David Marshall, Steven Ronald Hanson, Rocky Joseph Holmes
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Publication number: 20180255263Abstract: An image module comprising: (a) an imaging device that graphically or pictorially captures images of underwater sea life (b) a module housing including one or more components that processing an image generated by the imaging device; wherein the image module is discrete from a marine display and is capable of being connected to the marine display so that the graphic or pictorial images of underwater seal life captured by the imaging device are displayed.Type: ApplicationFiled: May 7, 2018Publication date: September 6, 2018Inventors: Jon David Marshall, Steven Ronald Hanson, Rocky Joseph Holmes
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Patent number: 9967506Abstract: An image module comprising: (a) an imaging device that graphically or pictorially captures images of underwater sea life (b) a module housing including one or more components that processing an image generated by the imaging device; wherein the image module is discrete from a marine display and is capable of being connected to the marine display so that the graphic or pictorial images of underwater seal life captured by the imaging device are displayed.Type: GrantFiled: May 21, 2015Date of Patent: May 8, 2018Assignee: ELECTRONIC TECHNOLOGIES, LLCInventors: Jon David Marshall, Steven Ronald Hanson, Rocky Joseph Holmes
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Patent number: 9556294Abstract: A magnetic particle-polymer hybrid material can include: a substance having a structure of Formula 1 or derivative or salt thereof: Z(L-FP)m (Formula 1), wherein: Z is a magnetic particle smaller than 1 mm; m is a positive integer and defines the number of (L-FP) coupled to the Z; L is a linker linked to the magnetic particle; FP is a functionalized polymer having: a first structure derived from a first norbornene compound linked to the magnetic particle through the L; and one or more monomeric units each including a second structure derived from a second norbornene compound, where one of the monomeric units is linked to the first structure through a saturated or unsaturated alkyl, each monomeric unit includes a functional group capable of binding with another substance.Type: GrantFiled: March 6, 2015Date of Patent: January 31, 2017Assignee: The University of KansasInventors: Paul Ronald Hanson, Oliver Reiser, Alexander Schätz, Alan Rolfe
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Publication number: 20160144316Abstract: A contaminated gas stream can be passed through an in-line mixing device, positioned in a duct containing the contaminated gas stream, to form a turbulent contaminated gas stream. One or more of the following is true: (a) a width of the in-line mixing device is no more than about 75% of a width of the duct at the position of the in-line mixing device; (b) a height of the in-line mixing device is no more than about 75% of a height of the duct at the position of the in-line mixing device; and (c) a cross-sectional area of the mixing device normal to a direction of gas flow is no more than about 75% of a cross-sectional area of the duct at the position of the in-line mixing device. An additive can be introduced into the contaminated gas stream to cause the removal of the contaminant by a particulate control device.Type: ApplicationFiled: November 24, 2015Publication date: May 26, 2016Inventors: Ronald Hanson, Tom Scott, Tyler Derritt, Cameron Martin
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Patent number: 9335606Abstract: A device for achieving multi-photon interference is provided based on nitrogen-vacancy defects in diamond material. Nitrogen-vacancy defects having a narrow band width and a similar emission frequency are identified within a high quality diamond material. The device has an excitation arrangement configured to individually address nitrogen-vacancy defects and optical outcoupling structures for increasing outcoupling of photons from each nitrogen-vacancy defect. A tuning arrangement is configured to tune the emission from each nitrogen-vacancy defect to reduce differences in frequency and the photons are overlapped. A detector is provided to detect the photon emissions. The detector is configured to resolve sufficiently small differences in photon detection times such that tuned photon emissions from the nitrogen-vacancy defects are quantum mechanically indistinguishable resulting in quantum interference between indistinguishable photon emissions from different nitrogen-vacancy defects.Type: GrantFiled: October 12, 2012Date of Patent: May 10, 2016Assignee: Element Six Technologies LimitedInventors: Ronald Hanson, Hannes Bernien, Matthew Lee Markham, Daniel James Twitchen
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Publication number: 20150341562Abstract: An image module comprising: (a) an imaging device that graphically or pictorially captures images of underwater sea life (b) a module housing including one or more components that processing an image generated by the imaging device; wherein the image module is discrete from a marine display and is capable of being connected to the marine display so that the graphic or pictorial images of underwater seal life captured by the imaging device are displayed.Type: ApplicationFiled: May 21, 2015Publication date: November 26, 2015Inventors: Jon David Marshall, Steven Ronald Hanson, Rocky Joseph Holmes
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Publication number: 20150175725Abstract: A magnetic particle-polymer hybrid material can include: a substance having a structure of Formula 1 or derivative or salt thereof: Z(L-FP)m (Formula 1), wherein: Z is a magnetic particle smaller than 1 mm; m is a positive integer and defines the number of (L-FP) coupled to the Z; L is a linker linked to the magnetic particle; FP is a functionalized polymer having: a first structure derived from a first norbornene compound linked to the magnetic particle through the L; and one or more monomeric units each including a second structure derived from a second norbornene compound, where one of the monomeric units is linked to the first structure through a saturated or unsaturated alkyl, each monomeric unit includes a functional group capable of binding with another substance.Type: ApplicationFiled: March 6, 2015Publication date: June 25, 2015Applicant: The University of KansasInventors: Paul Ronald Hanson, Oliver Reiser, Alexander Schätz, Alan Rolfe
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Patent number: 9035003Abstract: A magnetic particle-polymer hybrid material can include: a substance having a structure of Formula 1 or derivative or salt thereof: Z(Y-Triazole-CH2—X—CH2—(FP)n)m (Formula 1), wherein Z is a magnetic particle smaller than 1 mm; n and m are independently integers; Y includes a first linker having an alkyl and/or aryl linked to the magnetic particle; X is CH2 or a heteroatom; FP is a functionalized polymer having: a first structure derived from a first norbornene compound linked to the magnetic particle through the Y-Triazole-CH2—X—CH2 linker; and one or more monomeric units each including a second structure derived from a second norbornene compound, where one of the monomeric units is linked to the first structure through a saturated or unsaturated alkyl, each monomeric unit includes a functional group capable of binding with another substance.Type: GrantFiled: August 31, 2011Date of Patent: May 19, 2015Assignee: The University of KansasInventors: Paul Ronald Hanson, Oliver Reiser, Alexander Schätz, Alan Rolfe
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Patent number: 9029457Abstract: A particle-polymer hybrid material can include: a substance having the structure of Formula 1 Z(Y-FP)m, wherein Z is a particle smaller than 1 mm; m is an integer; Y is a linker including a silicon atom linked to the particle; FP is a functionalized polymer having: a first structure derived from a first norbornene compound linked to the Y; and one or more repeating units linked to the first structure, each unit being derived from a second norbornene compound and having a functional group.Type: GrantFiled: June 3, 2011Date of Patent: May 12, 2015Assignee: The University of KansasInventors: Paul Ronald Hanson, Alan Rolfe
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Publication number: 20140291490Abstract: A device for achieving multi-photon interference, said device comprising: at least two solid state photon emitters, each solid state photon emitter comprising nuclear and electron spin states coupled together, each solid state photon emitter being configured to produce photon emission comprising a photon emission peak, wherein the photon emission peaks from different solid state photon emitters have a first frequency difference between peak intensities, and wherein the electron spin states of each solid state photon emitter are resolvable; an excitation arrangement configured to individually address the at least two solid state photon emitters; a plurality of optical out coupling structures wherein each solid state photon emitter is provided with an associated optical out coupling structure; a tuning arrangement configured to reduce the first frequency difference between the peak intensities of the photon emission peaks from the at least two solid state photon emitters to a second frequency difference which iType: ApplicationFiled: October 12, 2012Publication date: October 2, 2014Inventors: Ronald Hanson, Hannes Bernien, Matthew Lee Markham, Daniel James Twitchen
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Patent number: 8544057Abstract: A system and method are described herein for standardizing an IT policy that is used to configure devices operating on a network. An IT policy can be generated that applies to a group of users or to one or more special users without having to define and store a new IT policy for each special user. This can be achieved by specifying global and per-user IT policy rules and merging these rules as needed to produce IT policy data. The IT policy can also be used to configure settings associated with storing electronic messages on the devices.Type: GrantFiled: February 27, 2007Date of Patent: September 24, 2013Assignee: BlackBerry LimitedInventors: Andrew Bocking, Michael Thomas Hardy, Phillip Roberts, Rudy Rawlins, Ronald Hanson
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Publication number: 20120226007Abstract: A magnetic particle-polymer hybrid material can include: a substance having a structure of Z-(Y-Triazole-X-(FP)n)m, (Formula 1), wherein Z is a magnetic particle smaller than 1 mm; n and m are independently integers; Y includes an alkyl or aryl linker linked to the magnetic particle; X is a carbon or heteroatom; FP is a functionalized polymer having: a first norbornenyl reaction product linked to the magnetic particle through the Y-Triazole-X linker; and one or more monomers each including a second norbornenyl reaction product, where one of the monomers is linked to the first norbornenyl reaction product, each monomer include a functional group capable of binding with another substance.Type: ApplicationFiled: August 31, 2011Publication date: September 6, 2012Applicant: THE UNIVERSITY OF KANSASInventors: Paul Ronald Hanson, Oliver Reiser, Alexander Schätz, Alan Rolfe
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Publication number: 20110301311Abstract: A particle-polymer hybrid material can include: a substance having the structure of Formula 1 (Z—(Y—FP)m, wherein Z is a particle smaller than 1 mm; m is an integer; Y is a linker including a siloxane linked to the particle; FP is a functionalized polymer having: a first norbornenyl reaction product linked to the siloxane; and one or more second norbornenyl reaction products linked to the first norbornenyl reaction product opposite of the siloxane, wherein the one or more second norbornenyl reaction products include a functional group.Type: ApplicationFiled: June 3, 2011Publication date: December 8, 2011Applicant: THE UNIVERSITY OF KANSASInventors: Paul Ronald Hanson, Alan Rolfe