Patents by Inventor Alexander Jason
Alexander Jason 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: 20240078163Abstract: A system to deploy virtual sensors to a machine learning project and translate data of the machine learning project is provided. The system can deploy, for a machine learning project, a plurality of virtual sensors at a first location of a plurality of locations to detect metadata of a data source of the machine learning project, at a second location of the plurality of locations to detect deployment information of a model trained for the machine learning project, and at a third location of the plurality of locations to detect learning session information for creation of the model. The system can collect, via the plurality of virtual sensors, data for the machine learning project. The system can translate, for render on a computing system, the data collected via the plurality of virtual sensors into a plurality of graphics.Type: ApplicationFiled: November 10, 2023Publication date: March 7, 2024Applicant: DataRobot, Inc.Inventors: Jeremy Achin, Michael Schmidt, Dmitry Zahanych, Alexander Jason Conway, Benjamin Taylor, Michael William Gilday, Uros Perisic, Andrii Chulovskyi, Romain Briot, Sully Matthew Sullenberger
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Patent number: 11688997Abstract: A laser assembly (1710) for generating an assembly output beam (1712) includes a laser subassembly (1716) including a first laser module (1716A) and a second laser module (1716B), a transform assembly (1744), and a beam combiner (1746). The first laser module (1716A) emits a plurality of spaced apart first laser beams (1720A). The second laser module (1716B) emits a plurality of spaced apart second laser beams (1720B). The transform assembly (1744) is positioned in a path of the laser beams (1720A) (1720B). The transform assembly (1744) directs the laser beams (1720A) (1720B) to spatially overlap at a focal plane of the transform assembly (1744). The beam combiner (1746) is positioned at the focal plane that combines the lasers beams (1720A) (1720B) to provide a combination beam. The laser beams (1720A) (1720B) directed by the transform assembly (1744) impinge on the beam combiner (1746) at different angles.Type: GrantFiled: July 19, 2021Date of Patent: June 27, 2023Assignee: DAYLIGHT SOLUTIONS, INC.Inventors: Alexander Jason Whitmore, Michael Pushkarsky, David P. Caffey, Francisco Javier Santos, Justin Motander Jones
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Publication number: 20210351571Abstract: A laser assembly (1710) for generating an assembly output beam (1712) includes a laser subassembly (1716) including a first laser module (1716A) and a second laser module (1716B), a transform assembly (1744), and a beam combiner (1746). The first laser module (1716A) emits a plurality of spaced apart first laser beams (1720A). The second laser module (1716B) emits a plurality of spaced apart second laser beams (1720B). The transform assembly (1744) is positioned in a path of the laser beams (1720A) (1720B). The transform assembly (1744) directs the laser beams (1720A) (1720B) to spatially overlap at a focal plane of the transform assembly (1744). The beam combiner (1746) is positioned at the focal plane that combines the lasers beams (1720A) (1720B) to provide a combination beam. The laser beams (1720A) (1720B) directed by the transform assembly (1744) impinge on the beam combiner (1746) at different angles.Type: ApplicationFiled: July 19, 2021Publication date: November 11, 2021Inventors: Alexander Jason Whitmore, Michael Pushkarsky, David P. Caffey, Francisco Javier Santos, Justin Motander Jones
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Patent number: 11070032Abstract: A laser assembly (1210) for generating an assembly output beam (1212) includes a laser subassembly (1216) that emits a plurality of spaced apart first laser beams (1220A), a plurality of spaced apart second laser beams (1220B), a transform lens assembly (1244), a wavelength selective beam combiner (1246), and a path length adjuster (1299). The transform lens assembly (1244) collimates and directs the laser beams (1220A) (1220B) to spatially overlap at a focal plane of the transform lens assembly (1244). The path length adjuster (1299) is positioned in a path of the first laser beams (1220A), the path length adjuster (1299) being adjustable to adjust of a path length the first laser beams (1220A) relative to the second laser beams (1220B).Type: GrantFiled: February 7, 2020Date of Patent: July 20, 2021Assignee: Daylight Solutions, Inc.Inventors: Alexander Jason Whitmore, Michael Pushkarsky, David P. Caffey
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Patent number: 11009217Abstract: A light source assembly for use by a user includes a housing assembly and a moving beam light source. The moving beam light source is positioned substantially within the housing assembly. The moving beam light source generates a source output beam that is directed away from the housing assembly at an angle relative to a rotation axis as a moving output beam while being rotated about the rotation axis. The moving beam light source is a non-visible light source that generates the source output beam having a center wavelength that is outside a visible light spectrum.Type: GrantFiled: February 14, 2019Date of Patent: May 18, 2021Assignee: DAYLIGHT SOLUTIONS, INC.Inventors: Alexander Jason Whitmore, Ronald Kevin Arp, Kristen Diane Cecchetti, Michael Vernon Henson, Eric Kim, J. Allen Priest, Michael Pushkarsky
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Publication number: 20200176954Abstract: A laser assembly (1210) for generating an assembly output beam (1212) includes a laser subassembly (1216) that emits a plurality of spaced apart first laser beams (1220A), a plurality of spaced apart second laser beams (1220B), a transform lens assembly (1244), a wavelength selective beam combiner (1246), and a path length adjuster (1299). The transform lens assembly (1244) collimates and directs the laser beams (1220A) (1220B) to spatially overlap at a focal plane of the transform lens assembly (1244). The path length adjuster (1299) is positioned in a path of the first laser beams (1220A), the path length adjuster (1299) being adjustable to adjust of a path length the first laser beams (1220A) relative to the second laser beams (1220B).Type: ApplicationFiled: February 7, 2020Publication date: June 4, 2020Inventors: Alexander Jason Whitmore, Michael Pushkarsky, David P. Caffey
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Patent number: 10559943Abstract: A laser assembly (10) for generating an assembly output beam (12) includes a laser subassembly (16) that emits a plurality of spaced apart laser beams (20), a beam adjuster (42), a transform lens (44A), a beam combiner (46), and an output coupler (48). The beam adjuster (42) adjusts the spacing between the plurality of laser beams (20). The transform lens (44A) focuses the laser beams (20) at a focal plane (54) and the beam combiner (46) is positioned at the focal plane (54). The beam combiner (46) combines the lasers beams (20) to provide a combination beam (58). Further, the output coupler (48) redirects at least a portion of the combination beam (58) back to the beam combiner (46) as a redirected beam (60), and transmits a portion of the combination beam (58) as the assembly output beam (12).Type: GrantFiled: January 8, 2019Date of Patent: February 11, 2020Assignee: DAYLIGHT SOLUTIONS, INC.Inventors: Alexander Jason Whitmore, Michael Pushkarsky, David P. Caffey
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Publication number: 20200025355Abstract: A light source assembly for use by a user includes a housing assembly and a moving beam light source. The moving beam light source is positioned substantially within the housing assembly. The moving beam light source generates a source output beam that is directed away from the housing assembly at an angle relative to a rotation axis as a moving output beam while being rotated about the rotation axis. The moving beam light source is a non-visible light source that generates the source output beam having a center wavelength that is outside a visible light spectrum.Type: ApplicationFiled: February 14, 2019Publication date: January 23, 2020Inventors: Alexander Jason Whitmore, Ronald Kevin Arp, Kristen Diane Cecchetti, Michael Vernon Henson, Eric Kim, J. Allen Priest, Michael Pushkarsky
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Publication number: 20190214786Abstract: A laser assembly (10) for generating an assembly output beam (12) includes a laser subassembly (16) that emits a plurality of spaced apart laser beams (20), a beam adjuster (42), a transform lens (44A), a beam combiner (46), and an output coupler (48). The beam adjuster (42) adjusts the spacing between the plurality of laser beams (20). The transform lens (44A) focuses the laser beams (20) at a focal plane (54) and the beam combiner (46) is positioned at the focal plane (54). The beam combiner (46) combines the lasers beams (20) to provide a combination beam (58). Further, the output coupler (48) redirects at least a portion of the combination beam (58) back to the beam combiner (46) as a redirected beam (60), and transmits a portion of the combination beam (58) as the assembly output beam (12).Type: ApplicationFiled: January 8, 2019Publication date: July 11, 2019Inventors: Alexander Jason Whitmore, Michael Pushkarsky, David P. Caffey
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Patent number: 10208902Abstract: A light source assembly includes a housing assembly and at least two sets of disparate light sources that are coupled to the housing assembly. The sets of disparate light sources include a first plurality of disparate light sources; and a second plurality of disparate light sources. Each plurality of disparate light sources includes a first light source that generates a first light beam having a first center wavelength and a second light source that generates a second light beam having a second center wavelength that is different than the first center wavelength. The first plurality of disparate light sources generates a first output beam that is directed along a first central beam axis. The second plurality of disparate light sources generates a second output beam that is directed along a second central beam axis that is spaced apart from the first central beam axis by at least approximately sixty degrees.Type: GrantFiled: October 13, 2017Date of Patent: February 19, 2019Assignee: DAYLIGHT SOLUTIONS, INC.Inventors: Alexander Jason Whitmore, Ronald Kevin Arp, Kristen Diane Cecchetti, Michael Vernon Henson, Eric Kim, J. Allen Priest, Michael Pushkarsky
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Publication number: 20180038561Abstract: A light source assembly includes a housing assembly and at least two sets of disparate light sources that are coupled to the housing assembly. The sets of disparate light sources include a first plurality of disparate light sources; and a second plurality of disparate light sources. Each plurality of disparate light sources includes a first light source that generates a first light beam having a first center wavelength and a second light source that generates a second light beam having a second center wavelength that is different than the first center wavelength. The first plurality of disparate light sources generates a first output beam that is directed along a first central beam axis. The second plurality of disparate light sources generates a second output beam that is directed along a second central beam axis that is spaced apart from the first central beam axis by at least approximately sixty degrees.Type: ApplicationFiled: October 13, 2017Publication date: February 8, 2018Inventors: Alexander Jason Whitmore, Ronald Kevin Arp, Kristen Diane Ceccheti, Michael Vernon Henson, Eric Kim, J. Allen Priest, Michael Pushkarsky
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Patent number: 9791113Abstract: A light source assembly includes a housing assembly, a plurality of disparate light sources that are coupled to the housing assembly, a power source, a control system and a selector assembly. Each of the light sources generates an output beam that is directed away from the housing assembly, wherein each of the output beams has a center wavelength that is in a different wavelength range than each of the other output beams. The power source provides electrical power to each of the light sources. The control system selectively controls the electrical power that is provided by the power source to the light sources. The selector assembly is electrically connected to the control system, and is selectively controllable to selectively direct current to each of the light sources to generate the desired output beams.Type: GrantFiled: October 23, 2014Date of Patent: October 17, 2017Assignee: Daylight Solutions, Inc.Inventors: Alexander Jason Whitmore, Ronald Kevin Arp, Kristen Diane Ceccheti, Michael Vernon Henson
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Publication number: 20150109768Abstract: A light source assembly includes a housing assembly, a plurality of disparate light sources that are coupled to the housing assembly, a power source, a control system and a selector assembly. Each of the light sources generates an output beam that is directed away from the housing assembly, wherein each of the output beams has a center wavelength that is in a different wavelength range than each of the other output beams. The power source provides electrical power to each of the light sources. The control system selectively controls the electrical power that is provided by the power source to the light sources. The selector assembly is electrically connected to the control system, and is selectively controllable to selectively direct current to each of the light sources to generate the desired output beams.Type: ApplicationFiled: October 23, 2014Publication date: April 23, 2015Inventors: Alexander Jason Whitmore, Ronald Kevin Arp, Kristen Diane Ceccheti, Michael Vernon Henson
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Patent number: 8770642Abstract: An evidence collection device preferably includes a handle member and a container member. The handle member preferably includes an evidence retention device and a handle portion. The evidence retention device preferably includes at least one loop, a first arm and a second arm. First and second clearance slots are formed in the handle portion to provide clearance for the first and second arms. A retention dowel is inserted through the at least one loop and into the handle portion to retain the evidence retention device. The container member is sized to receive the handle portion. A tapered surface is preferably formed on one end of the handle portion. In use, the first and second arms are squeezed together with two fingers for insertion into a cartridge casing. The one end of the handle portion is inserted into the container member and retained by friction.Type: GrantFiled: January 21, 2013Date of Patent: July 8, 2014Inventor: Alexander Jason
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Patent number: D595587Type: GrantFiled: September 9, 2008Date of Patent: July 7, 2009Assignee: Bath & Body Works Brand Management, Inc.Inventors: Alexander Jason Hadden, Edward J. Holmes, Christopher Michael Howell, David K. Lyon, Philip J. Silverstein