Patents by Inventor Jack Erdozain, Jr.
Jack Erdozain, Jr. 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: 20240127011Abstract: This Application sets forth techniques for managing (e.g., tracking or detecting the presence or absence of) physical cards stored in a physical wallet. In particular, the techniques set forth a smart wallet configured to detect the physical cards stored therein, as well as a smart card configured to be inserted into a traditional wallet and to detect the physical cards stored therein. The smart wallet/smart card can be configured to, upon detecting a change to physical cards stored in the smart wallet/traditional wallet, gather information associated with the physical cards and store the information into a memory of the smart wallet/smart card. The smart wallet/smart card can, upon being communicably coupled to a wireless device, transmit the information to the wireless device. Subsequently, the wireless device can output a notification indicating any missing physical cards as well as provide remedial options.Type: ApplicationFiled: September 20, 2023Publication date: April 18, 2024Inventors: Joel N. RUSCHER, Amrith V. RAM, James E. ORR, Travis J. MCQUEEN, Jack ERDOZAIN, JR.
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Patent number: 11639220Abstract: This disclosure is directed to an unmanned aerial vehicle (“UAV”) that transitions in-flight between vertical flight configuration and horizontal flight configuration by changing an orientation of the UAV by approximately ninety degrees. The UAV may include propulsion units that are coupled to a wing. The wing may include wing segments rotatably coupled together by pivots that rotate to position the propulsion units around a center of mass of the UAV when the fuselage is oriented perpendicular with the horizon. In this vertical flight configuration, the UAV may perform vertical flight or hover. During the vertical flight, the UAV may cause the wing to extend outward via the pivots such that the wing segments become positioned substantially parallel to one another and the wing resembles a conventional fixed wing. With the wing extended, the UAV assumes a horizontal flight configuration that provides upward lift generated from the wing.Type: GrantFiled: April 14, 2020Date of Patent: May 2, 2023Assignee: Amazon Technologies, Inc.Inventors: Jack Erdozain, Jr., Berk Ozturk, Nicholas Hampel Roberts, Brian C. Beckman
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Patent number: 11390381Abstract: This disclosure is directed to an unmanned aerial vehicle (“UAV”) that transitions in-flight between vertical flight configuration and horizontal flight configuration by changing an orientation of the UAV by approximately ninety degrees. The UAV may include propulsion units that are coupled to a wing. The wing may include wing segments rotatably coupled together by pivots that rotate to position the propulsion units around a center of mass of the UAV when the fuselage is oriented perpendicular with the horizon. In this vertical flight configuration, the UAV may perform vertical flight or hover. During the vertical flight, the UAV may cause the wing to extend outward via the pivots such that the wing segments become positioned substantially parallel to one another and the wing resembles a conventional fixed wing. With the wing extended, the UAV assumes a horizontal flight configuration that provides upward lift generated from the wing.Type: GrantFiled: August 2, 2019Date of Patent: July 19, 2022Assignee: Amazon Technologies, Inc.Inventors: Jack Erdozain, Jr., Berk Ozturk, Nicholas Hampel Roberts, Brian C. Beckman
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Patent number: 11232389Abstract: An unmanned aerial vehicle (UAV) may emit masking sounds during operation of the UAV to mask other sounds generated by the UAV during operation. The UAV may be used to deliver items to a residence or other location associated with a customer. The UAV may emit sounds that mask the conventional sounds generated by the propellers and/or motors to cause the UAV to emit sounds that are pleasing to bystanders or do not annoy the bystanders. The UAV may emit sounds using speakers or other sound generating devices, such as fins, reeds, whistles, or other devices which may cause sound to be emitted from the UAV. Noise canceling algorithms may be used to cancel at least some of the conventional noise generated by operation of the UAV using inverted sounds, while additional sound may be emitted by the UAV, which may not be subject to noise cancelation.Type: GrantFiled: September 14, 2018Date of Patent: January 25, 2022Assignee: Amazon Technologies, Inc.Inventors: Brian C. Beckman, Jack Erdozain, Jr., Sheridan Leigh Martin, Fabian Hensel, David Lindskog
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Patent number: 10759246Abstract: A stability control system that detects a change in a vehicle operating characteristic and sends a stabilizing command to an actuator system based on identifying the change is described. The actuator system applies a first magnetic field having a predetermined strength to an electropermanent magnet for a predetermined duration based on receiving the stabilizing command. The first magnetic field transitions the electropermanent magnet from a first state to a second state. The electropermanent magnet generates a second magnetic field in the second state. The second magnetic field modifies at least one of a spring constant or a mechanical resistance of a suspension component within a suspension system of the vehicle, and the electropermanent magnet retains the second state after the predetermined duration in absence of the first magnetic field.Type: GrantFiled: February 28, 2018Date of Patent: September 1, 2020Assignee: Apple Inc.Inventors: Jack Erdozain, Jr., Jeffrey A. Sewell, Johnny L. Wall, Colin Szechy
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Patent number: 10661894Abstract: This disclosure is directed to an unmanned aerial vehicle (“UAV”) that transitions in-flight between vertical flight configuration and horizontal flight configuration by changing an orientation of the UAV by approximately ninety degrees. The UAV may include propulsion units that are coupled to a wing. The wing may include wing segments rotatably coupled together by pivots that rotate to position the propulsion units around a center of mass of the UAV when the fuselage is oriented perpendicular with the horizon. In this vertical flight configuration, the UAV may perform vertical flight or hover. During the vertical flight, the UAV may cause the wing to extend outward via the pivots such that the wing segments become positioned substantially parallel to one another and the wing resembles a conventional fixed wing. With the wing extended, the UAV assumes a horizontal flight configuration that provides upward lift generated from the wing.Type: GrantFiled: April 12, 2019Date of Patent: May 26, 2020Assignee: Amazon Technologies, Inc.Inventors: Jack Erdozain, Jr., Berk Ozturk, Nicholas Hampel Roberts, Brian C. Beckman
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Patent number: 10450065Abstract: Stabilized delivery using an Unmanned Aerial Vehicle (UAV) is described. In one embodiment, the UAV includes a flight controller configured to control a flight path of the UAV, a winch mechanism secured to an underside of the UAV, a platform tethered to and extendable from the winch mechanism, and a ballast system configured to stabilize the platform. The winch mechanism may be relied upon to drop an item for delivery without landing the UAV. The winch mechanism can include a first winch mechanism secured to the UAV at a first orientation and a second winch mechanism secured to the UAV at a second orientation. Because the winch mechanism may give rise to certain design and operating considerations, various active and passive flight and/or ballast control systems are described. These systems maintain an orientation of the UAV, the platform, and/or the item during one or more stages of airborne drop delivery.Type: GrantFiled: May 15, 2017Date of Patent: October 22, 2019Assignee: AMAZON TECHNOLOGIES, INC.Inventors: Daniel Buchmueller, Louis LeRoi LeGrand, III, Jack Erdozain, Jr., Scarlett Elizabeth Koller, Eric Alexander Riehl, Trevor Barr Walker
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Patent number: 10392108Abstract: This disclosure is directed to an unmanned aerial vehicle (“UAV”) that transitions in-flight between vertical flight configuration and horizontal flight configuration by changing an orientation of the UAV by approximately ninety degrees. The UAV may include propulsion units that are coupled to a fuselage or wing. The UAV may include a tail and/or a swing arm that is rotatably coupled to the fuselage and that rotate between different positions. The swing arm may be selectively coupled to cargo. The wing may include wing segments rotatably coupled together by pivots that rotate to position the propulsion units around a center of mass of the UAV when the fuselage is oriented perpendicular with the horizon.Type: GrantFiled: December 23, 2016Date of Patent: August 27, 2019Assignee: Amazon Technologies, Inc.Inventors: Jack Erdozain, Jr., Berk Ozturk, Nicholas Hampel Roberts, Brian C. Beckman
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Patent number: 10102493Abstract: An unmanned aerial vehicle (UAV) may emit masking sounds during operation of the UAV to mask other sounds generated by the UAV during operation. The UAV may be used to deliver items to a residence or other location associated with a customer. The UAV may emit sounds that mask the conventional sounds generated by the propellers and/or motors to cause the UAV to emit sounds that are pleasing to bystanders or do not annoy the bystanders. The UAV may emit sounds using speakers or other sound generating devices, such as fins, reeds, whistles, or other devices which may cause sound to be emitted from the UAV. Noise canceling algorithms may be used to cancel at least some of the conventional noise generated by operation of the UAV using inverted sounds, while additional sound may be emitted by the UAV, which may not be subject to noise cancellation.Type: GrantFiled: April 4, 2017Date of Patent: October 16, 2018Assignee: Amazon Technologies, Inc.Inventors: Brian C. Beckman, Jack Erdozain, Jr., Fabian Hensel, David Lindskog, Sheridan Leigh Martin
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Patent number: 10059440Abstract: A propeller alignment device is described. The propeller alignment device can include a second retainer attached to a propeller and a motor. The propeller alignment device can also include a first retainer that does not rotate, but that is aligned with the second retainer. The first retainer can include two or more magnets oppositely orientated relative to each other. The second retainer can also include two or more magnets oppositely orientated relative to each other. As the second retainer rotates relative to the first retainer, the magnets alternatingly align with each other. In the absence of a current applied to the motor, the magnets may magnetically bias the second retainer into a predetermined orientation relative to the first retainer.Type: GrantFiled: November 29, 2017Date of Patent: August 28, 2018Assignee: Amazon Technologies, Inc.Inventors: Jack Erdozain, Jr., Louis LeRoi LeGrand, III, Joshua White Traube
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Publication number: 20180079497Abstract: A propeller alignment device is described. The propeller alignment device can include a second retainer attached to a propeller and a motor. The propeller alignment device can also include a first retainer that does not rotate, but that is aligned with the second retainer. The first retainer can include two or more magnets oppositely orientated relative to each other. The second retainer can also include two or more magnets oppositely orientated relative to each other. As the second retainer rotates relative to the first retainer, the magnets alternatingly align with each other. In the absence of a current applied to the motor, the magnets may magnetically bias the second retainer into a predetermined orientation relative to the first retainer.Type: ApplicationFiled: November 29, 2017Publication date: March 22, 2018Inventors: Jack Erdozain, JR., Louis LeRoi LeGrand, III, Joshua White Traube
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Patent number: 9878784Abstract: A propeller alignment device is described. The propeller alignment device can include a second retainer attached to a propeller and a motor. The propeller alignment device can also include a first retainer that does not rotate, but that is aligned with the second retainer. The first retainer can include two or more magnets oppositely orientated relative to each other. The second retainer can also include two or more magnets oppositely orientated relative to each other. As the second retainer rotates relative to the first retainer, the magnets may alternatingly align with each other. In the absence of a current applied to the motor, the magnets may magnetically bias the second retainer into a predetermined orientation relative to the first retainer. The predetermined orientation can be predetermined to correspond to an alignment of the propeller that is desirable (e.g., that minimizes aerodynamic drag on the propeller).Type: GrantFiled: December 11, 2015Date of Patent: January 30, 2018Assignee: Amazon Technologies, Inc.Inventors: Jack Erdozain, Jr., Louis LeRoi LeGrand, III, Joshua White Traube
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Publication number: 20170247109Abstract: Stabilized delivery using an Unmanned Aerial Vehicle (UAV) is described. In one embodiment, the UAV includes a flight controller configured to control a flight path of the UAV, a winch mechanism secured to an underside of the UAV, a platform tethered to and extendable from the winch mechanism, and a ballast system configured to stabilize the platform. The winch mechanism may be relied upon to drop an item for delivery without landing the UAV. The winch mechanism can include a first winch mechanism secured to the UAV at a first orientation and a second winch mechanism secured to the UAV at a second orientation. Because the winch mechanism may give rise to certain design and operating considerations, various active and passive flight and/or ballast control systems are described. These systems maintain an orientation of the UAV, the platform, and/or the item during one or more stages of airborne drop delivery.Type: ApplicationFiled: May 15, 2017Publication date: August 31, 2017Inventors: Daniel Buchmueller, Louis LeRoi LeGrand, III, Jack Erdozain, JR., Scarlett Elizabeth Koller, Eric Alexander Riehl, Trevor Barr Walker
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Patent number: 9688404Abstract: Stabilized airborne drop delivery using an Unmanned Aerial Vehicle (UAV) is described. In one embodiment, the UAV includes a flight controller configured to control a flight path of the UAV, a winch mechanism secured to an underside of the UAV, a platform tethered to and extendable from the winch mechanism, and a ballast system configured to stabilize the platform. The winch mechanism may be relied upon to drop an item for delivery without landing the UAV. Because the use of the winch mechanism may give rise to certain design and operating considerations, various active and passive flight and/or ballast control systems are described. These systems are configured to maintain an orientation of the UAV, the platform, and/or the item during one or more stages of airborne drop delivery.Type: GrantFiled: December 2, 2014Date of Patent: June 27, 2017Assignee: AMAZON TECHNOLOGIES, INC.Inventors: Daniel Buchmueller, Louis LeRoi LeGrand, III, Jack Erdozain, Jr., Scarlett Elizabeth Koller, Eric Alexander Riehl, Trevor Barr Walker
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Publication number: 20170166304Abstract: A propeller alignment device is described. The propeller alignment device can include a second retainer attached to a propeller and a motor. The propeller alignment device can also include a first retainer that does not rotate, but that is aligned with the second retainer. The first retainer can include two or more magnets oppositely orientated relative to each other. The second retainer can also include two or more magnets oppositely orientated relative to each other. As the second retainer rotates relative to the first retainer, the magnets may alternatingly align with each other. In the absence of a current applied to the motor, the magnets may magnetically bias the second retainer into a predetermined orientation relative to the first retainer. The predetermined orientation can be predetermined to correspond to an alignment of the propeller that is desirable (e.g., that minimizes aerodynamic drag on the propeller).Type: ApplicationFiled: December 11, 2015Publication date: June 15, 2017Inventors: Jack Erdozain, JR., Louis LeRoi LeGrand, III, Joshua White Traube
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Patent number: 9646597Abstract: An unmanned aerial vehicle (UAV) may emit masking sounds during operation of the UAV to mask other sounds generated by the UAV during operation. The UAV may be used to deliver items to a residence or other location associated with a customer. The UAV may emit sounds that mask the conventional sounds generated by the propellers and/or motors to cause the UAV to emit sounds that are pleasing to bystanders or do not annoy the bystanders. The UAV may emit sounds using speakers or other sound generating devices, such as fins, reeds, whistles, or other devices which may cause sound to be emitted from the UAV. Noise canceling algorithms may be used to cancel at least some of the conventional noise generated by operation of the UAV using inverted sounds, while additional sound may be emitted by the UAV, which may not be subject to noise cancelation.Type: GrantFiled: December 21, 2015Date of Patent: May 9, 2017Assignee: Amazon Technologies, Inc.Inventors: Brian C. Beckman, Jack Erdozain, Jr., Fabian Hensel, David Lindskog, Sheridan Leigh Martin
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Patent number: 9550567Abstract: This disclosure is directed to an unmanned aerial vehicle (“UAV”) that transitions in-flight between vertical flight configuration and horizontal flight configuration by changing an orientation of the UAV by approximately ninety degrees. The UAV may include propulsion units that are coupled to a wing. The wing may include wing segments rotatably coupled together by pivots that rotate to position the propulsion units around a center of mass of the UAV when the fuselage is oriented perpendicular with the horizon. In this vertical flight configuration, the UAV may perform vertical flight or hover. During the vertical flight, the UAV may cause the wing to extend outward via the pivots such that the wing segments become positioned substantially parallel to one another and the wing resembles a conventional fixed wing. With the wing extended, the UAV assumes a horizontal flight configuration that provides upward lift generated from the wing.Type: GrantFiled: October 27, 2014Date of Patent: January 24, 2017Assignee: Amazon Technologies, Inc.Inventors: Jack Erdozain, Jr., Berk Ozturk, Nicholas Hampel Roberts, Brian C. Beckman
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Patent number: 9348333Abstract: Aspects of modular airborne delivery are described. When a shipping container is provided to an airborne carrier for delivery, the airborne carrier may assess weather across a route for airborne delivery of the shipping container, evaluate an approach to drop the shipping container at a delivery zone, and calculate a remaining amount of time until a target delivery time, for example. The airborne carrier may then select components to assemble a modular unmanned aerial vehicle (UAV) based on those or other factors, and assemble the UAV using the selected components. The modular UAV may then be directed to deliver the shipping container according to instructions from the airborne carrier. According to the concepts described herein, flexibility and other advantages may be achieved using modular UAVs for airborne delivery.Type: GrantFiled: December 8, 2014Date of Patent: May 24, 2016Assignee: AMAZON TECHNOLOGIES, INC.Inventors: Daniel Buchmueller, Jack Erdozain, Jr., Gur Kimchi, Brandon William Porter, Ricky Dean Welsh