Patents by Inventor Ryan Kruse
Ryan Kruse 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: 20200045929Abstract: A monitoring system is used with one or more hogs in order to monitor the hogs. The system can monitor the health of the hogs to determine, predictively, if a change is occurring such that the change could be a health risk. The system can also determine farrowing, including the number of piglets and weight of the piglets. The system is capable of monitoring movement and eating patters to determine if a change has occurred that may signify a change in the health of the one or more hogs. The data of the system can be compiled and processed to allow the system to become self-learning in order to better predict and analyze the hog or hogs.Type: ApplicationFiled: August 9, 2019Publication date: February 13, 2020Inventors: Kenny Strobel, Ryan Kruse
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Patent number: 10371030Abstract: An exhaust gas purification system includes a tank for storing a fluid and a mounting plate coupled to the tank. A baffle is positioned inside the tank below the mounting plate. The baffle has an outer wall defining an interior cavity and an opening. A sensor is positioned in the interior cavity for detecting a condition of the fluid. A supply conduit extends through the mounting plate into the tank. A return conduit extends through the mounting plate into the tank and has an outlet positioned to discharge a return fluid below the opening and exterior to the baffle and the interior cavity.Type: GrantFiled: September 30, 2016Date of Patent: August 6, 2019Assignee: DEERE & COMPANYInventors: Ryan Kruse, Francis J. Lahey, Mark D. Benedict, Douglas J. Send, Paul Wantschik, Eric Nohr, Paul Riffel, Jonathan Copeland
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Publication number: 20180094562Abstract: An exhaust gas purification system includes a tank for storing a fluid and a mounting plate coupled to the tank. A baffle is positioned inside the tank below the mounting plate. The baffle has an outer wall defining an interior cavity and an opening. A sensor is positioned in the interior cavity for detecting a condition of the fluid. A supply conduit extends through the mounting plate into the tank. A return conduit extends through the mounting plate into the tank and has an outlet positioned to discharge a return fluid below the opening and exterior to the baffle and the interior cavity.Type: ApplicationFiled: September 30, 2016Publication date: April 5, 2018Inventors: Ryan Kruse, Francis J. Lahey, Mark D. Benedict, Douglas J. Send, Paul Wantschik, Eric Nohr, Paul Riffel, Jonathan Copeland
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Patent number: 9170098Abstract: A method for determining three-dimensional coordinates of an object point on a surface of an object, the method including steps of: providing a source, a projector, and a camera; in each of two instances: spatially modulating source light; sending a modulator pattern of light through the projector lens to form light spots; filtering the spots with a pinhole plate; propagating light from the light spots onto the object to produce a fringe pattern; imaging the object point with a camera lens onto an array point of the photosensitive array to obtain first and second electrical data values from the photosensitive array; and determining the three-dimensional coordinates of the first object point based at least in part on the first electrical data value, the second electrical data value, and a baseline length.Type: GrantFiled: July 9, 2012Date of Patent: October 27, 2015Assignee: FARO TECHNOLOGIES, INC.Inventors: Yu Gong, Ryan Kruse
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Patent number: 9091529Abstract: A method for determining three-dimensional coordinates of an object point on a surface of an object, the method including steps of: sending a beam of light to a diffraction grating; sending a first diffracted beam and a second diffracted beam to an objective lens to form at least two spots of light, which are passed through transparent regions of a plate to produce a first fringe pattern on the surface of the object; imaging the object point illuminated by the first fringe pattern onto a photosensitive array to obtain a first electrical data value; moving the plate to a second position; sending spots through plate to produce a second fringe pattern on the surface of the object; imaging the point onto the array point to obtain a second electrical data value; and calculating the three-dimensional coordinates of the first object point.Type: GrantFiled: July 9, 2012Date of Patent: July 28, 2015Assignee: FARO TECHNOLOGIES, INC.Inventors: Robert E. Bridges, Ryan Kruse, Paul McCormack, Emmanuel Lafond
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Publication number: 20130016190Abstract: A method for determining three-dimensional coordinates of an object point on a surface of an object, the method including steps of: sending a beam of light to a diffraction grating; sending a first diffracted beam and a second diffracted beam to an objective lens to form at least two spots of light, which are passed through transparent regions of a plate to produce a first fringe pattern on the surface of the object; imaging the object point illuminated by the first fringe pattern onto a photosensitive array to obtain a first electrical data value; moving the plate to a second position; sending spots through plate to produce a second fringe pattern on the surface of the object; imaging the point onto the array point to obtain a second electrical data value; and calculating the three-dimensional coordinates of the first object point.Type: ApplicationFiled: July 9, 2012Publication date: January 17, 2013Applicant: FARO TECHNOLOGIES, INC.Inventors: Robert E. Bridges, Ryan Kruse, Paul McCormack, Emmanuel Lafond
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Publication number: 20130016338Abstract: A method for determining three-dimensional coordinates of an object point on a surface of an object, including steps of providing a transparent plate having a first region and a second region, the second region having a different wedge angle than the first region; splitting a first beam of light into a first light and a second light; sending the first light through the first region or the second region; combining the first light and the second light to produce a fringe pattern on the surface of the object, the pitch of the fringe pattern depending on the wedge angle through which the first light travels; imaging the object point onto an array point on a photosensitive array to obtain an electrical data value; determining the three-dimensional coordinates of the first object point based at least in part on the electrical data value.Type: ApplicationFiled: July 3, 2012Publication date: January 17, 2013Applicant: FARO TECHNOLOGIES, INC.Inventors: Robert E. Bridges, Ryan Kruse, Yu Gong, Paul McCormack, Emmanuel Lafond
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Publication number: 20130016362Abstract: A method for determining three-dimensional coordinates of an object point on a surface of an object, the method including steps of: providing a source, a projector, and a camera; in each of two instances: spatially modulating source light; sending a modulator pattern of light through the projector lens to form light spots; filtering the spots with a pinhole plate; propagating light from the light spots onto the object to produce a fringe pattern; imaging the object point with a camera lens onto an array point of the photosensitive array to obtain first and second electrical data values from the photosensitive array; and determining the three-dimensional coordinates of the first object point based at least in part on the first electrical data value, the second electrical data value, and a baseline length.Type: ApplicationFiled: July 9, 2012Publication date: January 17, 2013Applicant: FARO TECHNOLOGIES, INC.Inventors: Yu Gong, Ryan Kruse