Patents by Inventor Nicolaus A Radford
Nicolaus A Radford 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: 8291788Abstract: A rotary actuator assembly is provided for actuation of an upper arm assembly for a dexterous humanoid robot. The upper arm assembly for the humanoid robot includes a plurality of arm support frames each defining an axis. A plurality of rotary actuator assemblies are each mounted to one of the plurality of arm support frames about the respective axes. Each rotary actuator assembly includes a motor mounted about the respective axis, a gear drive rotatably connected to the motor, and a torsion spring. The torsion spring has a spring input that is rotatably connected to an output of the gear drive and a spring output that is connected to an output for the joint.Type: GrantFiled: September 22, 2009Date of Patent: October 23, 2012Assignees: GM Global Technology Operations LLC, The United States of America as Represented by the Administrator of the National Aeronautics and Space AdministrationInventors: Chris A. Ihrke, Joshua S. Mehling, Adam H. Parsons, Bryan Kristian Griffith, Nicolaus A. Radford, Frank Noble Permenter, Donald R. Davis, Robert O. Ambrose, Lucien Q. Junkin
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Patent number: 8250901Abstract: A system includes a rotary device, a rotary absolute position (RAP) sensor generating encoded pairs of voltage signals describing positional data of the rotary device, a host machine, and an algorithm. The algorithm calculates calibration parameters usable to determine an absolute position of the rotary device using the encoded pairs, and is adapted for linearly-mapping an ellipse defined by the encoded pairs to thereby calculate the calibration parameters. A method of calibrating the RAP sensor includes measuring the rotary position as encoded pairs of voltage signals, linearly-mapping an ellipse defined by the encoded pairs to thereby calculate the calibration parameters, and calculating an absolute position of the rotary device using the calibration parameters. The calibration parameters include a positive definite matrix (A) and a center point (q) of the ellipse. The voltage signals may include an encoded sine and cosine of a rotary angle of the rotary device.Type: GrantFiled: September 22, 2009Date of Patent: August 28, 2012Assignees: GM Global Technology Operations LLC, Oceaneering International, Inc.Inventors: Donald R. Davis, Frank Noble Permenter, Nicolaus A Radford
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Patent number: 8067909Abstract: An electromagnetic braking system and method is provided for selectively braking a motor using an electromagnetic brake having an electromagnet, a permanent magnet, a rotor assembly, and a brake pad. The brake assembly applies when the electromagnet is de-energized and releases when the electromagnet is energized. When applied the permanent magnet moves the brake pad into frictional engagement with a housing, and when released the electromagnet cancels the flux of the permanent magnet to allow a leaf spring to move the brake pad away from the housing. A controller has a DC/DC converter for converting a main bus voltage to a lower braking voltage based on certain parameters. The converter utilizes pulse-width modulation (PWM) to regulate the braking voltage. A calibrated gap is defined between the brake pad and permanent magnet when the brake assembly is released, and may be dynamically modified via the controller.Type: GrantFiled: May 29, 2009Date of Patent: November 29, 2011Assignee: GM Global Technology Operations LLCInventors: Donald R. Davis, Nicolaus A Radford, Frank Noble Permenter, Adam H Parsons, Joshua S Mehling
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Patent number: 8033876Abstract: An electrical connector and method includes a connector and a conforming element proximate to or in contact with the mating end of the connector so as to prevent distortion of a matable end. The matable end of the connector may be of a female or male type and may be of a post, tube, blade, pin, or other configuration. An element made of conforming material, for example, an elastomer, epoxy or rubber type material, is configured and positioned in contact with the matable end of the connector, providing support during assembly to prevent distortion of the matable end. The conforming element may be rectangular, wedge, cylindrical, conical, annular, or of another configuration as required to provide support to the connector pin. The conforming element may be fastened with an adhesive to the matable end to further prevent distortion.Type: GrantFiled: February 17, 2010Date of Patent: October 11, 2011Assignee: GM Global Technology Operations LLCInventors: Donald R. Davis, Nicolaus A Radford, R. Scott Askew
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Publication number: 20110067517Abstract: A rotary actuator assembly is provided for actuation of an upper arm assembly for a dexterous humanoid robot. The upper arm assembly for the humanoid robot includes a plurality of arm support frames each defining an axis. A plurality of rotary actuator assemblies are each mounted to one of the plurality of arm support frames about the respective axes. Each rotary actuator assembly includes a motor mounted about the respective axis, a gear drive rotatably connected to the motor, and a torsion spring. The torsion spring has a spring input that is rotatably connected to an output of the gear drive and a spring output that is connected to an output for the joint.Type: ApplicationFiled: September 22, 2009Publication date: March 24, 2011Applicants: GM GLOBAL TECHNOLOGY OPERATIONS,INC., The U.S.A .As Represented by the Administrator of the National Aeronautics and Space Administration, Oceaneering International, Inc.Inventors: Chris A. Ihrke, Joshua S. Mehling, Adam H. Parsons, Bryan Kristian Griffith, Nicolaus A. Radford, Frank Noble Permenter, Donald R. Davis, Robert O. Ambrose, Lucien Q. Junkin
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Publication number: 20110067521Abstract: A humanoid robot includes a torso, a pair of arms, two hands, a neck, and a head. The torso extends along a primary axis and presents a pair of shoulders. The pair of arms movably extend from a respective one of the pair of shoulders. Each of the arms has a plurality of arm joints. The neck movably extends from the torso along the primary axis. The neck has at least one neck joint. The head movably extends from the neck along the primary axis. The head has at least one head joint. The shoulders are canted toward one another at a shrug angle that is defined between each of the shoulders such that a workspace is defined between the shoulders.Type: ApplicationFiled: September 22, 2009Publication date: March 24, 2011Applicants: GM GLOBAL TECHNOLOGY OPERATIONS, INC., The U.S.A. As Represented by the Administrator of the National Aeronautics and Space Administration, Oceaneering International, Inc.Inventors: Douglas Martin Linn, Robert O. Ambrose, Myron A. Diftler, Scott R. Askew, Robert Platt, Joshua S. Mehling, Nicolaus A. Radford, Philip A. Strawser, Lyndon Bridgwater, Charles W. Wampler, II, Muhammad E. Abdallah, Chris A. Ihrke, Matthew J. Reiland, Adam M. Sanders, David M. Reich, Brian Hargrave, Adam H. Parsons, Frank Noble Permenter, Donald R. Davis
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Publication number: 20110071680Abstract: A control system for achieving high-speed torque for a joint of a robot includes a printed circuit board assembly (PCBA) having a collocated joint processor and high-speed communication bus. The PCBA may also include a power inverter module (PIM) and local sensor conditioning electronics (SCE) for processing sensor data from one or more motor position sensors. Torque control of a motor of the joint is provided via the PCBA as a high-speed torque loop. Each joint processor may be embedded within or collocated with the robotic joint being controlled. Collocation of the joint processor, PIM, and high-speed bus may increase noise immunity of the control system, and the localized processing of sensor data from the joint motor at the joint level may minimize bus cabling to and from each control node. The joint processor may include a field programmable gate array (FPGA).Type: ApplicationFiled: September 22, 2009Publication date: March 24, 2011Applicants: GM GLOBAL TECHNOLOGY OPERATIONS, INC., Oceaneering International, Inc.Inventors: Donald R. Davis, Nicolaus A. Radford, Frank Noble Permenter, Michael C. Valvo
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Publication number: 20100301785Abstract: An electromagnetic braking system and method is provided for selectively braking a motor using an electromagnetic brake having an electromagnet, a permanent magnet, a rotor assembly, and a brake pad. The brake assembly applies when the electromagnet is de-energized and releases when the electromagnet is energized. When applied the permanent magnet moves the brake pad into frictional engagement with a housing, and when released the electromagnet cancels the flux of the permanent magnet to allow a leaf spring to move the brake pad away from the housing. A controller has a DC/DC converter for converting a main bus voltage to a lower braking voltage based on certain parameters. The converter utilizes pulse-width modulation (PWM) to regulate the braking voltage. A calibrated gap is defined between the brake pad and permanent magnet when the brake assembly is released, and may be dynamically modified via the controller.Type: ApplicationFiled: May 29, 2009Publication date: December 2, 2010Applicants: GM GLOBAL TECHNOLOGY OPERATIONS, INC., The U.S.A. as Represented by the Administrator of the National Aeronautics and Space AdministrationInventors: Donald R. Davis, Nicolaus A. Radford, Frank Noble Permenter, Adam H. Parsons
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Publication number: 20100279524Abstract: An electrical connector and method includes a connector and a conforming element proximate to or in contact with the mating end of the connector so as to prevent distortion of a matable end. The matable end of the connector may be of a female or male type and may be of a post, tube, blade, pin, or other configuration. An element made of conforming material, for example, an elastomer, epoxy or rubber type material, is configured and positioned in contact with the matable end of the connector, providing support during assembly to prevent distortion of the matable end. The conforming element may be rectangular, wedge, cylindrical, conical, annular, or of another configuration as required to provide support to the connector pin. The conforming element may be fastened with an adhesive to the matable end to further prevent distortion.Type: ApplicationFiled: February 17, 2010Publication date: November 4, 2010Inventors: Donald R. Davis, Nicolaus A. Radford
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Patent number: D628609Type: GrantFiled: April 6, 2010Date of Patent: December 7, 2010Assignees: GM Global Technology Operations, Inc., NASA Lyndon B. Johnson Space Center, Oceaneering Space SystemsInventors: Douglas Martin Linn, Chris A. Ihrke, Robert O. Ambrose, Joshua S Mehling, Myron A Diftler, Adam H Parsons, Nicolaus A Radford, Lyndon Bridgwater, Heather Bibby