Patents by Inventor Jamie Milliken
Jamie Milliken 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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Patent number: 11278435Abstract: Exemplary embodiments relate to techniques for supplying increased power to an augmentation device without increasing battery size. For example, the load may be a motor that provides augmentation power to a joint of a prosthetic ankle, and which is generally powered by a battery. A reconfigurable electrical circuit may connect a supercapacitor in series with the battery to boost the power from the battery at times when a pulse of increased power is demanded. For instance, states of one or more switches of the electrical circuit may be changed in order to briefly disconnect the motor from the circuit just prior to a powered plantarflexion phase of a gait cycle of the ankle, and then to reconnect the motor to a reconfigured circuit to provide a power boost. The circuit may also be reconfigured to allow the battery to recharge the supercapacitor during periods of nominal power demand.Type: GrantFiled: January 3, 2020Date of Patent: March 22, 2022Assignee: OTTO BOCK HEALTHCARE LPInventors: Jamie Milliken, Ashish Shah
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Publication number: 20210205102Abstract: Exemplary embodiments relate to techniques for supplying increased power to an augmentation device without increasing battery size. For example, the load may be a motor that provides augmentation power to a joint of a prosthetic ankle, and which is generally powered by a battery. A reconfigurable electrical circuit may connect a supercapacitor in series with the battery to boost the power from the battery at times when a pulse of increased power is demanded. For instance, states of one or more switches of the electrical circuit may be changed in order to briefly disconnect the motor from the circuit just prior to a powered plantarflexion phase of a gait cycle of the ankle, and then to reconnect the motor to a reconfigured circuit to provide a power boost. The circuit may also be reconfigured to allow the battery to recharge the supercapacitor during periods of nominal power demand.Type: ApplicationFiled: January 3, 2020Publication date: July 8, 2021Inventors: Jamie Milliken, Ashish Shah
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Patent number: 10845481Abstract: A scanning optical range finder in a mobile robot includes an optical emitter circuit, a non-imaging optical element, an optical detector circuit, and a ranging circuit. The non-imaging optical element is arranged to receive optical signals at an entrance aperture thereof responsive to operation of the optical emitter circuit, and to direct the optical signals to an output aperture thereof. The optical detector circuit is configured to receive the optical signals from the output aperture of the non-imaging optical element, and to generate detection signals based on respective phase differences of the optical signals relative to corresponding outputs of the optical emitter circuit. The ranging circuit is configured to calculate a range of a target from the phase differences indicated by the detection signals. Related devices and methods of operation are also discussed.Type: GrantFiled: June 19, 2018Date of Patent: November 24, 2020Assignee: iRobot CorporationInventors: Travis Pierce, Jamie Milliken, Marc Wilga
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Publication number: 20180299550Abstract: A scanning optical range finder in a mobile robot includes an optical emitter circuit, a non-imaging optical element, an optical detector circuit, and a ranging circuit. The non-imaging optical element is arranged to receive optical signals at an entrance aperture thereof responsive to operation of the optical emitter circuit, and to direct the optical signals to an output aperture thereof. The optical detector circuit is configured to receive the optical signals from the output aperture of the non-imaging optical element, and to generate detection signals based on respective phase differences of the optical signals relative to corresponding outputs of the optical emitter circuit. The ranging circuit is configured to calculate a range of a target from the phase differences indicated by the detection signals. Related devices and methods of operation are also discussed.Type: ApplicationFiled: June 19, 2018Publication date: October 18, 2018Inventors: Travis Pierce, Jamie Milliken, Marc Wilga
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Patent number: 10067232Abstract: A location estimation system for use with an autonomous lawn mowing robot, comprises a plurality of synthetic surfaces positioned with respect to a mowable space in an environment, a radiation source coupled to the lawn mowing robot, a detector coupled to the lawn mowing robot and configured to detect radiation reflected by objects in the environment, and a controller configured to controllably direct radiation from the radiation source to scan the environment, and to vary at least one of an output power of the directed radiation and a scan rate of the directed radiation, as a function of detected radiation reflected from one or more of the synthetic surfaces.Type: GrantFiled: December 5, 2016Date of Patent: September 4, 2018Assignee: iRobot CorporationInventors: Mike Halloran, Jamie Milliken, Travis Pierce, Eric Charles Peters
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Patent number: 10024964Abstract: A scanning optical range finder in a mobile robot includes an optical emitter circuit, a non-imaging optical element, an optical detector circuit, and a ranging circuit. The non-imaging optical element is arranged to receive optical signals at an entrance aperture thereof responsive to operation of the optical emitter circuit, and to direct the optical signals to an output aperture thereof. The optical detector circuit is configured to receive the optical signals from the output aperture of the non-imaging optical element, and to generate detection signals based on respective phase differences of the optical signals relative to corresponding outputs of the optical emitter circuit. The ranging circuit is configured to calculate a range of a target from the phase differences indicated by the detection signals. Related devices and methods of operation are also discussed.Type: GrantFiled: October 31, 2014Date of Patent: July 17, 2018Assignee: iRobot CorporationInventors: Travis Pierce, Jamie Milliken, Marc Wilga
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Publication number: 20170146654Abstract: A location estimation system for use with an autonomous lawn mowing robot, comprises a plurality of synthetic surfaces positioned with respect to a mowable space in an environment, a radiation source coupled to the lawn mowing robot, a detector coupled to the lawn mowing robot and configured to detect radiation reflected by objects in the environment, and a controller configured to controllably direct radiation from the radiation source to scan the environment, and to vary at least one of an output power of the directed radiation and a scan rate of the directed radiation, as a function of detected radiation reflected from one or more of the synthetic surfaces.Type: ApplicationFiled: December 5, 2016Publication date: May 25, 2017Inventors: Mike Halloran, Jamie Milliken, Travis Pierce, Eric Charles Peters
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Patent number: 9510505Abstract: A location estimation system for use with an autonomous lawn mowing robot, comprises a plurality of synthetic surfaces positioned with respect to a mowable space in an environment, a radiation source coupled to the lawn mowing robot, a detector coupled to the lawn mowing robot and configured to detect radiation reflected by objects in the environment, and a controller configured to controllably direct radiation from the radiation source to scan the environment, and to vary at least one of an output power of the directed radiation and a scan rate of the directed radiation, as a function of detected radiation reflected from one or more of the synthetic surfaces.Type: GrantFiled: October 10, 2014Date of Patent: December 6, 2016Assignee: iRobot CorporationInventors: Michael J. Halloran, Jamie Milliken, Travis Pierce, Eric Charles Peters
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Publication number: 20150124242Abstract: A scanning optical range finder in a mobile robot includes an optical emitter circuit, a non-imaging optical element, an optical detector circuit, and a ranging circuit. The non-imaging optical element is arranged to receive optical signals at an entrance aperture thereof responsive to operation of the optical emitter circuit, and to direct the optical signals to an output aperture thereof. The optical detector circuit is configured to receive the optical signals from the output aperture of the non-imaging optical element, and to generate detection signals based on respective phase differences of the optical signals relative to corresponding outputs of the optical emitter circuit. The ranging circuit is configured to calculate a range of a target from the phase differences indicated by the detection signals. Related devices and methods of operation are also discussed.Type: ApplicationFiled: October 31, 2014Publication date: May 7, 2015Inventors: Travis Pierce, Jamie Milliken, Marc Wilga