Patents by Inventor Brian M. Morlock

Brian M. Morlock 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).

  • Publication number: 20260068850
    Abstract: A livestock management system for detecting, tracking, and responding to livestock location and physical parameters, and for determining livestock behavior and physical conditions correlated thereto. The system generally includes a plurality of tags and sensors attached to and implanted in a plurality of livestock, one or more local sensors, a management platform, and a remote computer system. Each tag receives, processes and maintains data regarding the location, activity and physical parameters of a livestock to which it is attached and locally determines the behavior and physical conditions of the livestock. The tags communicate with other nearby tags and sensors locally via dynamic mesh networks and with the management platform and remote computer system via longer range wireless networks. The management platform processes the tag data and produces herd-related data. The remote computer uses the tag data to generate and update livestock behavior and condition models for download to the tags.
    Type: Application
    Filed: November 17, 2025
    Publication date: March 12, 2026
    Inventors: Kevin N. Biffert, Maximillion K. Cossette, Steven J. Berlinger, Peter S. Crowley, Cole L. Mehring, Keith D. Alseben, Braydon W. Love, Brian M. Morlock, Chad A. Brinkman
  • Publication number: 20260013468
    Abstract: A livestock management system for detecting, tracking, and responding to livestock location and physical parameters, and for determining livestock behavior and physical conditions correlated thereto. The system generally includes a plurality of tags and sensors attached to and implanted in a plurality of livestock, one or more local sensors, a management platform, and a remote computer system. Each tag receives, processes and maintains data regarding the location, activity and physical parameters of a livestock to which it is attached and locally determines the behavior and physical conditions of the livestock. The tags communicate with other nearby tags and sensors locally via dynamic mesh networks and with the management platform and remote computer system via longer range wireless networks. The management platform processes the tag data and produces herd-related data. The remote computer uses the tag data to generate and update livestock behavior and condition models for download to the tags.
    Type: Application
    Filed: September 22, 2025
    Publication date: January 15, 2026
    Inventors: Kevin N. Biffert, Maximillion K. Cossette, Steven J. Berlinger, Peter S. Crowley, Cole L. Mehring, Keith D. Alsleben, Braydon W. Love, Brian M. Morlock, Chad A. Brinkman
  • Patent number: 12419275
    Abstract: A livestock management system for detecting, tracking, and responding to livestock location and physical parameters, and for determining livestock behavior and physical conditions correlated thereto. The system generally includes a plurality of tags and sensors attached to and implanted in a plurality of livestock, one or more local sensors, a management platform, and a remote computer system. Each tag receives, processes and maintains data regarding the location, activity and physical parameters of a livestock to which it is attached and locally determines the behavior and physical conditions of the livestock. The tags communicate with other nearby tags and sensors locally via dynamic mesh networks and with the management platform and remote computer system via longer range wireless networks. The management platform processes the tag data and produces herd-related data. The remote computer uses the tag data to generate and update livestock behavior and condition models for download to the tags.
    Type: Grant
    Filed: December 21, 2021
    Date of Patent: September 23, 2025
    Assignee: 701x Inc.
    Inventors: Kevin N. Biffert, Maximillion K. Cossette, Steven J. Berlinger, Peter S. Crowley, Cole L. Mehring, Keith D. Alsleben, Braydon W. Love, Brian M. Morlock, Chad A. Brinkman
  • Patent number: 12034400
    Abstract: A livestock management system for detecting, tracking, and responding to livestock location and physical parameters, and for determining livestock behavior and physical conditions correlated thereto. The system generally includes a plurality of tags and sensors attached to and implanted in a plurality of livestock, one or more local sensors, a management platform, and a remote computer system. Each tag receives, processes and maintains data regarding the location, activity and physical parameters of a livestock to which it is attached and locally determines the behavior and physical conditions of the livestock. The tags communicate with other nearby tags and sensors locally via dynamic mesh networks and with the management platform and remote computer system via longer range wireless networks. The management platform processes the tag data and produces herd-related data. The remote computer uses the tag data to generate and update livestock behavior and condition models for download to the tags.
    Type: Grant
    Filed: December 21, 2021
    Date of Patent: July 9, 2024
    Assignee: 701x Inc.
    Inventors: Kevin N. Biffert, Maximillion K. Cossette, Steven J. Berlinger, Peter S. Crowley, Cole L Mehring, Keith D. Alsleben, Braydon W. Love, Brian M. Morlock, Chad A. Brinkman
  • Publication number: 20220192150
    Abstract: A livestock management system for detecting, tracking, and responding to livestock location and physical parameters, and for determining livestock behavior and physical conditions correlated thereto. The system generally includes a plurality of tags and sensors attached to and implanted in a plurality of livestock, one or more local sensors, a management platform, and a remote computer system. Each tag receives, processes and maintains data regarding the location, activity and physical parameters of a livestock to which it is attached and locally determines the behavior and physical conditions of the livestock. The tags communicate with other nearby tags and sensors locally via dynamic mesh networks and with the management platform and remote computer system via longer range wireless networks. The management platform processes the tag data and produces herd-related data. The remote computer uses the tag data to generate and update livestock behavior and condition models for download to the tags.
    Type: Application
    Filed: December 21, 2021
    Publication date: June 23, 2022
    Inventors: Kevin N. Biffert, Maximillion K. Cossette, Steven J. Berlinger, Peter S. Crowley, Cole L. Mehring, Keith D. Alsleben, Braydon W. Love, Brian M. Morlock, Chad A. Brinkman
  • Publication number: 20220200519
    Abstract: A livestock management system for detecting, tracking, and responding to livestock location and physical parameters, and for determining livestock behavior and physical conditions correlated thereto. The system generally includes a plurality of tags and sensors attached to and implanted in a plurality of livestock, one or more local sensors, a management platform, and a remote computer system. Each tag receives, processes and maintains data regarding the location, activity and physical parameters of a livestock to which it is attached and locally determines the behavior and physical conditions of the livestock. The tags communicate with other nearby tags and sensors locally via dynamic mesh networks and with the management platform and remote computer system via longer range wireless networks. The management platform processes the tag data and produces herd-related data. The remote computer uses the tag data to generate and update livestock behavior and condition models for download to the tags.
    Type: Application
    Filed: December 21, 2021
    Publication date: June 23, 2022
    Inventors: Kevin N. Biffert, Maximillion K. Cossette, Steven J. Berlinger, Peter S. Crowley, Cole L. Mehring, Keith D. Alsleben, Braydon W. Love, Brian M. Morlock, Chad A. Brinkman
  • Publication number: 20220192151
    Abstract: A livestock management system for detecting, tracking, and responding to livestock location and physical parameters, and for determining livestock behavior and physical conditions correlated thereto. The system generally includes a plurality of tags and sensors attached to and implanted in a plurality of livestock, one or more local sensors, a management platform, and a remote computer system. Each tag receives, processes and maintains data regarding the location, activity and physical parameters of a livestock to which it is attached and locally determines the behavior and physical conditions of the livestock. The tags communicate with other nearby tags and sensors locally via dynamic mesh networks and with the management platform and remote computer system via longer range wireless networks. The management platform processes the tag data and produces herd-related data. The remote computer uses the tag data to generate and update livestock behavior and condition models for download to the tags.
    Type: Application
    Filed: December 21, 2021
    Publication date: June 23, 2022
    Inventors: Kevin N. Biffert, Maximillion K. Cossette, Steven J. Berlinger, Peter S. Crowley, Cole L. Mehring, Keith D. Alsleben, Braydon W. Love, Brian M. Morlock, Chad A. Brinkman
  • Publication number: 20220192152
    Abstract: A livestock management system for detecting, tracking, and responding to livestock location and physical parameters, and for determining livestock behavior and physical conditions correlated thereto. The system generally includes a plurality of tags and sensors attached to and implanted in a plurality of livestock, one or more local sensors, a management platform, and a remote computer system. Each tag receives, processes and maintains data regarding the location, activity and physical parameters of a livestock to which it is attached and locally determines the behavior and physical conditions of the livestock. The tags communicate with other nearby tags and sensors locally via dynamic mesh networks and with the management platform and remote computer system via longer range wireless networks. The management platform processes the tag data and produces herd-related data. The remote computer uses the tag data to generate and update livestock behavior and condition models for download to the tags.
    Type: Application
    Filed: December 21, 2021
    Publication date: June 23, 2022
    Inventors: Kevin N. Biffert, Maximillion K. Cossette, Steven J. Berlinger, Peter S. Crowley, Cole L. Mehring, Keith D. Alsleben, Braydon W. Love, Brian M. Morlock, Chad A. Brinkman
  • Patent number: 8442697
    Abstract: Embodiments of a method and an apparatus for on-demand power management of a processing system have been presented. In some embodiments, the apparatus includes a power management unit (PMU) to provide power to an electronic system. The apparatus further includes a power management controller (PMC) coupled to the power management unit, to control values of one or more parameters of an operating state of the PMU in response to the operating conditions of the electronic system. The PMC may execute a power management algorithm (PMA) to determine the values of the parameters. Further, the PMU and the PMC may reside on different integrated circuit substrates.
    Type: Grant
    Filed: March 28, 2008
    Date of Patent: May 14, 2013
    Assignee: Packet Digital
    Inventors: Michael J. Schmitz, Brian M. Morlock, Joel A. Jorgenson
  • Publication number: 20130061068
    Abstract: An apparatus for on-demand power management including an I/O serial communication master device, peripheral devices that communicate with the master device along the serial communications bus, and a power manager that buffers the peripheral devices from the serial communication master. The power manager also manages voltage regulation and clock sources to the peripheral devices, with the ability of placing the peripheral devices in an inactive state, or in any number of active states as a means to conserve energy. In some embodiments, the I/O serial communications master acts as if the peripheral devices are always in the highest activity state, and the power manager manages the communications to and from the peripheral devices and the power management of the peripheral devices to reduce energy consumption and system latency.
    Type: Application
    Filed: November 1, 2012
    Publication date: March 7, 2013
    Inventors: Christopher J. Tremel, Brian M. Morlock, Michael J. Schmitz
  • Patent number: 8312299
    Abstract: An apparatus for on-demand power management includes an I/O serial communication master device, peripheral devices that communicate with the master device along the serial bus, and a power manager that buffers the peripheral devices from the serial communication master. The power manager also manages voltage regulation and clock sources to the peripheral devices, with the ability of placing the peripheral devices in an inactive state, or in any number of active states as a means to conserve energy. In some embodiments, the I/O serial communications master acts as if the peripheral devices are always in the highest activity state, and the power manager manages the communications to and from the peripheral devices and the power management of the peripheral devices to minimize energy consumption and reduce system latency.
    Type: Grant
    Filed: March 26, 2009
    Date of Patent: November 13, 2012
    Assignee: Packet Digital
    Inventors: Christopher J. Tremel, Brian M. Morlock, Michael J. Schmitz
  • Publication number: 20120089856
    Abstract: A power management apparatus and method are described. The method including monitoring, using a controller, a system bus for a processing demand in a processing system, the processing system comprising the system bus and a system processor, wherein the processing system operates at a first one or more voltages and a first one or more clock frequencies phase-locked to a reference frequency, wherein the controller is a different component than the system processor. The method further including generating a second one or more clock frequencies in response to the processing demand, the second one or more clock frequencies phase-locked to the reference frequency and phase-matched to the first one or more clock frequencies; and switching from the first one or more clock frequencies to the second one or more clock frequencies without halting the processing system.
    Type: Application
    Filed: December 19, 2011
    Publication date: April 12, 2012
    Inventors: Joel A. Jorgenson, Divvata Kakumanu, Brian M. Morlock
  • Patent number: 8095818
    Abstract: An apparatus for on-demand power management including a system controller, a clock domain manager coupled to the system controller and a power distribution manager coupled to the system controller. The system controller monitors a processing demand in a processing system. The clock domain manager provides one or more clock frequencies and, in response to the processing demand, switches between a first set of clock frequencies and a second set of clock frequencies without halting the processing system. The power distribution manager provides one or more operating voltages and, in response to the processing demand, switches between a first set of voltages and a second set of voltages without halting the processing system.
    Type: Grant
    Filed: May 23, 2008
    Date of Patent: January 10, 2012
    Assignee: Packet Digital
    Inventors: Joel A. Jorgenson, Divyata Kakumanu, Brian M. Morlock
  • Patent number: 8020015
    Abstract: An apparatus for on-demand power management including a system controller, a clock domain manager coupled to the system controller and a power distribution manager coupled to the system controller. The system controller monitors a processing demand in a processing system. The clock domain manager provides one or more clock frequencies and, in response to the processing demand, switches between a first set of clock frequencies and a second set of clock frequencies without halting the processing system. The power distribution manager provides one or more operating voltages and, in response to the processing demand, switches between a first set of voltages and a second set of voltages without halting the processing system.
    Type: Grant
    Filed: May 23, 2008
    Date of Patent: September 13, 2011
    Assignee: Packet Digital
    Inventors: Joel A. Jorgenson, Divyata Kakumanu, Brian M. Morlock
  • Publication number: 20100199114
    Abstract: A method for on-demand power management is described. The method includes detecting a plurality of processing events on a system bus within a processing system, recognizing a processing event pattern, and correlating the processing event pattern with a processing demand.
    Type: Application
    Filed: April 14, 2010
    Publication date: August 5, 2010
    Inventors: Joel A. Jorgenson, Divyata Kakumanu, Brian M. Morlock
  • Patent number: 7730334
    Abstract: A method for on-demand power management monitors a processing demand in a processing system operating at a first set of voltages and frequencies and generates a second set of voltages and frequencies in response to the processing demand. The method switches from the first set of voltages and frequencies to the second set of voltages and frequencies without halting the processing system.
    Type: Grant
    Filed: December 20, 2007
    Date of Patent: June 1, 2010
    Assignee: Packet Digital
    Inventors: Joel A. Jorgenson, Divyata Kakumanu, Brian M. Morlock
  • Patent number: 7657764
    Abstract: Embodiments of on-demand power management have been presented. In some embodiments, a set of processing events on a system bus within a processing system is detected. Further, a processing event pattern may be recognized, and the processing event pattern may be correlated with a processing demand in the processing system.
    Type: Grant
    Filed: December 20, 2007
    Date of Patent: February 2, 2010
    Assignee: Packet Digital
    Inventors: Joel A. Jorgenson, Divyata Kakumanu, Brian M. Morlock
  • Publication number: 20090249089
    Abstract: An apparatus for on-demand power management includes an I/O serial communication master device, peripheral devices that communicate with the master device along the serial bus, and a power manager that buffers the peripheral devices from the serial communication master. The power manager also manages voltage regulation and clock sources to the peripheral devices, with the ability of placing the peripheral devices in an inactive state, or in any number of active states as a means to conserve energy. In some embodiments, the I/O serial communications master acts as if the peripheral devices are always in the highest activity state, and the power manager manages the communications to and from the peripheral devices and the power management of the peripheral devices to minimize energy consumption and reduce system latency.
    Type: Application
    Filed: March 26, 2009
    Publication date: October 1, 2009
    Inventors: Christopher J. Tremel, Brian M. Morlock, Michael J. Schmitz
  • Publication number: 20090158061
    Abstract: Embodiments of a method and an apparatus for on-demand power management of a processing system have been presented. In some embodiments, the apparatus includes a power management unit (PMU) to provide power to an electronic system. The apparatus further includes a power management controller (PMC) coupled to the power management unit, to control values of one or more parameters of an operating state of the PMU in response to the operating conditions of the electronic system. The PMC may execute a power management algorithm (PMA) to determine the values of the parameters. Further, the PMU and the PMC may reside on different integrated circuit substrates.
    Type: Application
    Filed: March 28, 2008
    Publication date: June 18, 2009
    Inventors: Michael J. Schmitz, Brian M. Morlock, Joel A. Jorgenson
  • Publication number: 20090117872
    Abstract: A passively powered element with multiple energy harvesting and communication channels is described. The passively powered element may include a number of antennae tuned to transmit and to receive radio frequency (RF) signals at multiple different frequencies. The passively powered element may further include a number of rectifiers, each coupled to a distinct one of the antennae, to convert energy of the RF signals into direct current (DC) power and to receive data in the RF signals. An electronic device is coupled to the rectifiers to receive the DC power and the data from the rectifiers.
    Type: Application
    Filed: July 29, 2008
    Publication date: May 7, 2009
    Inventors: Joel A. Jorgenson, Michael J. Schmitz, Brian M. Morlock, Bradley R. Thurow