Patents by Inventor Dayo Oshinubi
Dayo Oshinubi 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: 20230351146Abstract: A device and a computer-implemented method for a neural architecture search. A first set of values is provided for parameters that define at least one part of an architecture for an artificial neural network, wherein the part of the architecture encompasses a plurality of layers of the artificial neural network and/or a plurality of operations of the artificial neural network, wherein a first value of a function is determined for the first set of values for the parameters, said first value characterizing a property of a target system when the target system executes a task for the part of the artificial neural network that is defined by the first set of values for the parameters.Type: ApplicationFiled: September 20, 2021Publication date: November 2, 2023Inventors: Armin Runge, Dayo Oshinubi, Falk Rehm, Michael Meixner, Michael Klaiber
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Patent number: 11525702Abstract: A sensor system for determining at least one rotation characteristic of an element rotating about at least one rotation axis includes at least one sensor wheel having a profile and being connectable to the rotating element; and at least one inductive position sensor including at least one coil arrangement that includes at least one excitation coil and at least two receiver coils, where at least in sections of the at least two receiver coils have a sinusoidal shape.Type: GrantFiled: May 7, 2018Date of Patent: December 13, 2022Assignee: Robert Bosch GmbHInventors: Dayo Oshinubi, Fabian Utermoehlen
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Patent number: 11118940Abstract: A displacement sensor includes an induction element and sensor element. The induction element has an electrically conductive measurement track element extending along a measurement path, and two electrically conductive correction track element positioned adjacent to each other relative to the path. The sensor element is movable relative to the induction element along the measurement track element, and has a measurement coil positioned over the measurement track element and two correction coils positioned adjacent to each other relative to the path. A position change of the measurement coil on the path changes an overlap of the measurement coil and the measurement track element along the path such that an induction of the measurement coil is configured with reference to the position of the measurement coil on the measurement path. Each correction coil is positioned over a respective corrective track element such that an overlap of the correction coil over the respective corrective track element is constant.Type: GrantFiled: January 18, 2017Date of Patent: September 14, 2021Assignee: Robert Bosch GmbHInventors: Fabian Utermoehlen, Dayo Oshinubi, Stefan Leidich
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Patent number: 10895475Abstract: An angular position sensor includes a stator element with at least three coils, a rotor element rotatably mounted with respect to the stator element, and an evaluation unit configured to determine an angle of rotation between the rotor element and stator element. The rotor element is configured to inductively couple with each of the at least three coils with varying strengths based on the angle of rotation. The evaluation unit is further configured to supply the coils with alternating voltage in a cyclical manner and in sequence, so that a first respective part of the coils is supplied with alternating voltage and a remaining part is de-energized. The evaluation unit is additionally configured, in a cyclical manner in sequence with one or more de-energized coils, to detect at least one of a respective phase and an amount of an induced alternating voltage, and to determine the angle of rotation therefrom.Type: GrantFiled: October 13, 2016Date of Patent: January 19, 2021Assignee: Robert Bosch GmbHInventors: Ingo Herrmann, Thomas Buck, Fabian Utermoehlen, Andreas Merz, Dayo Oshinubi, Oliver Krayl, Stefan Leidich
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Publication number: 20200292355Abstract: A displacement sensor includes an induction element and sensor element. The induction element has an electrically conductive measurement track element extending along a measurement path, and two electrically conductive correction track element positioned adjacent to each other relative to the path. The sensor element is movable relative to the induction element along the measurement track element, and has a measurement coil positioned over the measurement track element and two correction coils positioned adjacent to each other relative to the path. A position change of the measurement coil on the path changes an overlap of the measurement coil and the measurement track element along the path such that an induction of the measurement coil is configured with reference to the position of the measurement coil on the measurement path. Each correction coil is positioned over a respective corrective track element such that an overlap of the correction coil over the respective corrective track element is constant.Type: ApplicationFiled: January 18, 2017Publication date: September 17, 2020Inventors: Fabian Utermoehlen, Dayo Oshinubi, Stefan Leidich
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Publication number: 20200116529Abstract: A sensor system for determining at least one rotation characteristic of an element rotating about at least one rotation axis includes at least one sensor wheel having a profile and being connectable to the rotating element; and at least one inductive position sensor including at least one coil arrangement that includes at least one excitation coil and at least two receiver coils, where at least in sections of the at least two receiver coils have a sinusoidal shape.Type: ApplicationFiled: May 7, 2018Publication date: April 16, 2020Inventors: Dayo Oshinubi, Fabian Utermoehlen
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Publication number: 20200103250Abstract: A sensor system for determining at least one rotational characteristic of an element rotating about at least one axis of rotation; the sensor system including at least one signal-generating wheel connectable to the rotating element. The signal-generating wheel has a signal-generating wheel profile. The sensor system further includes at least one inductive position sensor; the inductive position sensor having at least one coil set-up that includes at least one operating coil and at least one receiving coil. In addition, the sensor system includes at least one phase detector; the phase detector including at least one magnetic field generator and at least one magnetic sensor element.Type: ApplicationFiled: October 23, 2017Publication date: April 2, 2020Inventors: Andre Yashan, Dayo Oshinubi, Fabian Utermoehlen, Stefan Leidich
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Publication number: 20180224301Abstract: An angular position sensor includes a stator element with at least three coils, a rotor element rotatably mounted with respect to the stator element, and an evaluation unit configured to determine an angle of rotation between the rotor element and stator element. The rotor element is configured to inductively couple with each of the at least three coils with varying strengths based on the angle of rotation. The evaluation unit is further configured to supply the coils with alternating voltage in a cyclical manner and in sequence, so that a first respective part of the coils is supplied with alternating voltage and a remaining part is de-energized. The evaluation unit is additionally configured, in a cyclical manner in sequence with one or more de-energized coils, to detect at least one of a respective phase and an amount of an induced alternating voltage, and to determine the angle of rotation therefrom.Type: ApplicationFiled: October 13, 2016Publication date: August 9, 2018Inventors: Ingo Herrmann, Thomas Buck, Fabian Utermoehlen, Andreas Merz, Dayo Oshinubi, Oliver Krayl, Stefan Leidich
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Patent number: 9958297Abstract: A sensor device for ascertaining at least one rotation characteristic of a rotating element is provided. The sensor device includes at least one trigger wheel which is able to be connected to the rotating element. The rotating element and the trigger wheel have an axis of rotation. The sensor device includes at least one coil array. The coil array encompasses at least one excitation coil and at least one receiver coil. The coil array is situated on at least one circuit carrier. The trigger wheel as a trigger wheel profile. The sensor device is designed to ascertain a change in an inductive coupling between the excitation coil and the receiver coil as a function of a position of the trigger wheel. The circuit carrier is situated coaxially with the axis of rotation of the trigger wheel. The circuit carrier surrounds the trigger wheel at least partially in a circular manner.Type: GrantFiled: January 25, 2017Date of Patent: May 1, 2018Assignee: ROBERT BOSCH GMBHInventors: Dayo Oshinubi, Stefan Leidich
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Publication number: 20170227379Abstract: A sensor device for ascertaining at least one rotation characteristic of a rotating element is provided. The sensor device includes at least one trigger wheel which is able to be connected to the rotating element. The rotating element and the trigger wheel have an axis of rotation. The sensor device includes at least one coil array. The coil array encompasses at least one excitation coil and at least one receiver coil. The coil array is situated on at least one circuit carrier. The trigger wheel as a trigger wheel profile. The sensor device is designed to ascertain a change in an inductive coupling between the excitation coil and the receiver coil as a function of a position of the trigger wheel. The circuit carrier is situated coaxially with the axis of rotation of the trigger wheel. The circuit carrier surrounds the trigger wheel at least partially in a circular manner.Type: ApplicationFiled: January 25, 2017Publication date: August 10, 2017Inventors: Dayo Oshinubi, Stefan Leidich
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Patent number: 8125280Abstract: In a method for regulating an excited oscillation of a system to a resonance case of the system, instantaneous values of the oscillating quantity are discretely recorded using one sampling frequency, and the sampling frequency is selected to be below twice a maximum frequency of the system. In addition, the following steps are provided: ascertaining an oscillation amplitude from the instantaneous values; regulating a control amplitude on the basis of the ascertained oscillation amplitude; specifying a control frequency on the basis of the control amplitude; generating a control oscillation in consideration of the control frequency; combining the oscillation amplitude and the control oscillation to form a control signal; and exciting the system in consideration of the control signal.Type: GrantFiled: October 20, 2009Date of Patent: February 28, 2012Assignee: Robert Bosch GmbHInventors: Marko Rocznik, Dayo Oshinubi
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Publication number: 20100127785Abstract: In a method for regulating an excited oscillation of a system to a resonance case of the system, instantaneous values of the oscillating quantity are discretely recorded using one sampling frequency, and the sampling frequency is selected to be below twice a maximum frequency of the system. In addition, the following steps are provided: ascertaining an oscillation amplitude from the instantaneous values; regulating a control amplitude on the basis of the ascertained oscillation amplitude; specifying a control frequency on the basis of the control amplitude; generating a control oscillation in consideration of the control frequency; combining the oscillation amplitude and the control oscillation to form a control signal; and exciting the system in consideration of the control signal.Type: ApplicationFiled: October 20, 2009Publication date: May 27, 2010Inventors: Marko Rocznik, Dayo Oshinubi