Patents by Inventor Daniel Kingsley
Daniel Kingsley 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: 20230213548Abstract: Aspects herein are directed to a support garment testing system comprising a torso form having a motion tracking sensor associated with one or more breast structures of the torso form. A support garment is secured to the torso form, and the torso form is mounted on a motion platform that, when actuated, causes displacement of the breast structures. The amount of displacement is measured by the sensor, and the data is used to assign a level of support provided by the support garment.Type: ApplicationFiled: March 13, 2023Publication date: July 6, 2023Inventors: Lisa Campbell, Gregory Paul Dufour, Bridget Munro, Ian Wright, Kim B Blair, Daniel A Kingsley, Luri Robert Middleton, John David Pye, Elizabeth A. Rapp van Roden
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Patent number: 11604206Abstract: Aspects herein are directed to a support garment testing system comprising a torso form having a motion tracking sensor associated with one or more breast structures of the torso form. A support garment is secured to the torso form, and the torso form is mounted on a motion platform that, when actuated, causes displacement of the breast structures. The amount of displacement is measured by the sensor, and the data is used to assign a level of support provided by the support garment.Type: GrantFiled: March 10, 2020Date of Patent: March 14, 2023Assignee: NIKE, Inc.Inventors: Lisa Campbell, Gregory Paul Dufour, Bridget Munro, Ian Wright, Kim B. Blair, Daniel A. Kingsley, Luri Robert Middleton, John David Pye, Elizabeth A. Rapp van Roden
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Publication number: 20200309809Abstract: Aspects herein are directed to a support garment testing system comprising a torso form having a motion tracking sensor associated with one or more breast structures of the torso form. A support garment is secured to the torso form, and the torso form is mounted on a motion platform that, when actuated, causes displacement of the breast structures. The amount of displacement is measured by the sensor, and the data is used to assign a level of support provided by the support garment.Type: ApplicationFiled: March 10, 2020Publication date: October 1, 2020Inventors: Lisa Campbell, Greg Dufour, Bridget Munro, Ian Wright, Kim B. Blair, Daniel A. Kingsley, Luri Robert Middleton, John David Pye, Elizabeth A. Rapp van Roden
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Patent number: 9122467Abstract: In one embodiment, the present invention includes a primary voltage regulator to couple a regulated voltage to a processor via a supply line. This regulator includes a multi-phase controller to provide the regulated voltage in multiple phases and to provide a maximum current output sufficient to meet a thermal design power (TDP) of the processor. In addition, an auxiliary voltage regulator may be configured to provide an excess current to the processor via the supply line for a time limited duration, e.g., based on the supply line state. Other embodiments are described and claimed.Type: GrantFiled: March 5, 2013Date of Patent: September 1, 2015Assignee: Intel CorporationInventors: James S. Dinh, Robert D. Wickersham, Daniel Kingsley, Edward L. Payton
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Patent number: 9110644Abstract: In one embodiment, the present invention includes a primary voltage regulator to couple a regulated voltage to a processor via a supply line. This regulator includes a multi-phase controller to provide the regulated voltage in multiple phases and to provide a maximum current output sufficient to meet a thermal design power (TDP) of the processor. In addition, an auxiliary voltage regulator may be configured to provide an excess current to the processor via the supply line for a time limited duration, e.g., based on the supply line state. Other embodiments are described and claimed.Type: GrantFiled: September 14, 2012Date of Patent: August 18, 2015Assignee: Intel CorporationInventors: James S. Dinh, Robert D. Wickersham, Daniel Kingsley, Edward L. Payton
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Publication number: 20140082377Abstract: In one embodiment, the present invention includes a primary voltage regulator to couple a regulated voltage to a processor via a supply line. This regulator includes a multi-phase controller to provide the regulated voltage in multiple phases and to provide a maximum current output sufficient to meet a thermal design power (TDP) of the processor. In addition, an auxiliary voltage regulator may be configured to provide an excess current to the processor via the supply line for a time limited duration, e.g., based on the supply line state. Other embodiments are described and claimed.Type: ApplicationFiled: September 14, 2012Publication date: March 20, 2014Inventors: James S. Dinh, Robert D. Wickersham, Daniel Kingsley, Edward L. Payton
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Publication number: 20140082381Abstract: In one embodiment, the present invention includes a primary voltage regulator to couple a regulated voltage to a processor via a supply line. This regulator includes a multi-phase controller to provide the regulated voltage in multiple phases and to provide a maximum current output sufficient to meet a thermal design power (TDP) of the processor. In addition, an auxiliary voltage regulator may be configured to provide an excess current to the processor via the supply line for a time limited duration, e.g., based on the supply line state. Other embodiments are described and claimed.Type: ApplicationFiled: March 5, 2013Publication date: March 20, 2014Inventors: JAMES DINH, ROBERT WICKERSHAM, DANIEL KINGSLEY, EDWARD PAYTON
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Publication number: 20110022330Abstract: A monitoring system is disclosed which includes at least one experiment node at which, in use of the system, a user participates in a study, and a control node. The experiment node includes communication devices operable to communicate with the user, a user input operable to record the response of a user to a prompt, a user interaction device operable such that the user can interact with the experiment node, and a device to record data relating to such user interactions. The control node is remote from the experiment node and in communication therewith to receive information including user responses and recorded user interaction data therefrom. The control node is also operable to configure the at least one experiment node to execute a plurality of human factors tests on the participant at predetermined times. The monitoring apparatus also includes a co-ordination device operable to co-ordinate the information with the predetermined times.Type: ApplicationFiled: March 20, 2009Publication date: January 27, 2011Inventors: Daniel Kingsley Amos, Jeremy Lynn Hinton
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Patent number: 6964309Abstract: A vehicle that is propelled by as few as one actuator through a compliant drive train can move quickly on relatively smooth terrain and can climb obstacles. The body of the vehicle may consist of a single segment or multiple segments connected by articulating joints. The driving appendages can take different forms including legs or specialized legs with multiple spokes attached to a rotating hub. The driving appendages can be propelled by as few as one actuator. The driving appendages are each serially connected to their actuator(s) by a compliant device. The compliant devices permit relative motion between driving appendages that share the same actuator. A springably biased compliant device maintains nominal-desired phasing among driving appendages until one of them is forcibly perturbed. The phasing of the driving appendages, or gait, adapts to the terrain. Mechanical stops limit the excursion of the compliant device such that a new desirable leg phasing is reached for climbing large obstacles.Type: GrantFiled: June 3, 2002Date of Patent: November 15, 2005Assignee: BioRobots, LLCInventors: Roger D. Quinn, Daniel A. Kingsley, John T. Offi, Roy E. Ritzmann
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Publication number: 20020179342Abstract: A vehicle that is propelled by as few as one actuator through a compliant drive train can move quickly on relatively smooth terrain and can climb obstacles. The body of the vehicle may consist of a single segment or multiple segments connected by articulating joints. The driving appendages can take different forms including legs or specialized legs with multiple spokes attached to a rotating hub. The driving appendages can be propelled by as few as one actuator. The driving appendages are each serially connected to their actuator(s) by a compliant device. The compliant devices permit relative motion between driving appendages that share the same actuator. A springably biased compliant device maintains nominal-desired phasing among driving appendages until one of them is forcibly perturbed. The phasing of the driving appendages, or gait, adapts to the terrain. Mechanical stops limit the excursion of the compliant device such that a new desirable leg phasing is reached for climbing large obstacles.Type: ApplicationFiled: June 3, 2002Publication date: December 5, 2002Inventors: Roger D. Quinn, Daniel A. Kingsley, John T. Offi, Roy E. Ritzmann