Patents by Inventor Michael L. Elford
Michael L. Elford 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: 10536759Abstract: Novel tools and techniques are provided for implementing point-to-point fiber insertion within a passive optical network (“PON”) communications system. The PON communications system, associated with a first service provider or a first service, might include an F1 line(s) routed from a central office or DSLAM to a fiber distribution hub (“FDH”) located within a block or neighborhood of customer premises, via at least an apical conduit source slot, an F2 line(s) routed via various apical conduit components to a network access point (“NAP”) servicing customer premises, and an F3 line(s) distributed, at the NAP and from the F2 Line(s), to a network interface device or optical network terminal at each customer premises via various apical conduit components (e.g., in roadway surfaces). Point-to-point fiber insertion of another F1 line(s), associated with a second service provider or a second service, at either the NAP or the FDH (or outside these devices).Type: GrantFiled: December 10, 2018Date of Patent: January 14, 2020Assignee: CenturyLink Intellectual Property LLCInventors: Michael L. Elford, Michael P. Winterrowd, Thomas C. Barnett, Jr., Thomas Schwengler
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Patent number: 10439382Abstract: Novel tools and techniques for underground cable installation are provided. A system includes a compressor and a boring attachment. The boring attachment may be operatively coupled to the compressor and further coupled to an outer sheath of a buried cable. The boring attachment may be configured to be actuated by the compressor. In response to being actuated by the compressor, the boring attachment may be configured to displace at least some ground material, in contact with the buried cable, in which the buried cable is buried, and advance in at least one direction along a longitudinal axis of the buried cable.Type: GrantFiled: August 4, 2017Date of Patent: October 8, 2019Assignee: CenturyLink Intellectual Property LLCInventors: Michael L. Elford, Pete A. Kawamoto, Diana L. Unser
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Patent number: 10440189Abstract: Novel tools and techniques are provided for delivering plain old telephone service (“POTS”) telephony over high speed data networks. In particular, various embodiments provide tools and techniques for concurrent transmission of POTS voice signals and data signals over the same wire(s) of high-speed data lines or data cables. Various systems and methods might, in some instances, utilize upbanding or rebanding of the POTS voice band to a higher frequency band above the data stream band spectrum for transport of voice concurrent with data over the same wire(s) in the cable. The system might comprise interface devices at either end of a cable segment, one interface device to reband the voice signal and to combine the voice signal with the data signal for each dual-transport wire in the cable, and another interface device at the other end to separate the voice signal from the data signal.Type: GrantFiled: February 15, 2018Date of Patent: October 8, 2019Assignee: CenturyLink Intellectual Property LLCInventors: Thomas Schwengler, Michael L. Elford
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Publication number: 20190293895Abstract: Novel tools and techniques are provided for implementing FTTx, which might include Fiber-to-the-Home (“FTTH”), Fiber-to-the-Premises (“FTTP”), and/or the like. A method might include routing an F1 line(s) from a central office or DSLAM to a fiber distribution hub (“FDH”) located within a block or neighborhood of customer premises, via at least an apical conduit source slot. From the FDH, an F2 line(s) might be routed, via any combination of various apical conduit components, to a network access point (“NAP”) servicing one or more customer premises. An F3 line(s) might be distributed, at the NAP and from the F2 line(s), to a network interface device (“NID”) or optical network terminal (“ONT”) at each customer premises, via any combination of the apical conduit components, which include channels in at least portions of roadways. In some embodiments, at least one wireless access point is disposed in each of one or more channels.Type: ApplicationFiled: June 6, 2019Publication date: September 26, 2019Inventors: Thomas Schwengler, Michael L. Elford, Michael P. Winterrowd, Thomas C. Barnett, JR.
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Publication number: 20190229435Abstract: Novel tools and techniques are provided for implementing antenna structures to optimize transmission and reception of wireless signals from ground-based signal distribution devices, which include, but are not limited to, pedestals, hand holes, and/or network access point platforms. Wireless applications with such devices and systems might include, without limitation, wireless signal transmission and reception in accordance with IEEE 802.11a/b/g/n/ac/ad/af standards, UMTS, CDMA, LTE, PCS, AWS, EAS, BRS, and/or the like. In some embodiments, an antenna might be provided within a signal distribution device, which might include a container disposed in a ground surface. A top portion of the container might be substantially level with a top portion of the ground surface. The antenna might be communicatively coupled to one or more of at least one conduit, at least one optical fiber, at least one conductive signal line, or at least one power line via the container.Type: ApplicationFiled: April 1, 2019Publication date: July 25, 2019Inventors: Thomas Schwengler, John M. Heinz, Michael L. Elford
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Patent number: 10338334Abstract: Novel tools and techniques for direct cable expansion are provided. A system includes a pump, a probe, and a coupler. The pump is coupled to a reservoir holding a fluid. The probe is in fluid communication with the pump, and is configured to introduce the fluid into a cable such that a channel is created, by the fluid, between an outer sheath of the cable and a core of the cable. The coupler is configured to attach to a cable, receive the probe, and position the probe at an interface between the outer sheath and an inner material of the cable adjacent to the outer sheath.Type: GrantFiled: August 4, 2017Date of Patent: July 2, 2019Assignee: CenturyLink Intellectual Property LLCInventors: Michael L. Elford, Pete A. Kawamoto, Diana L. Unser
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Patent number: 10330882Abstract: Novel tools and techniques are provided for implementing FTTx, which might include Fiber-to-the-Home (“FTTH”), Fiber-to-the-Premises (“FTTP”), and/or the like. A method might include routing an F1 line(s) from a central office or DSLAM to a fiber distribution hub (“FDH”) located within a block or neighborhood of customer premises, via at least an apical conduit source slot. From the FDH, an F2 line(s) might be routed, via any combination of various apical conduit components, to a network access point (“NAP”) servicing one or more customer premises. An F3 line(s) might be distributed, at the NAP and from the F2 line(s), to a network interface device (“NID”) or optical network terminal (“ONT”) at each customer premises, via any combination of the apical conduit components, which include channels in at least portions of roadways. In some embodiments, at least one wireless access point is disposed in each of one or more channels.Type: GrantFiled: December 17, 2015Date of Patent: June 25, 2019Assignee: CenturyLink Intellectual Property LLCInventors: Thomas Schwengler, Michael L. Elford, Michael P. Winterrowd, Thomas C. Barnett, Jr.
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Publication number: 20190157742Abstract: Novel tools and techniques are provided for implementing antenna structures to optimize transmission and reception of wireless signals from ground-based signal distribution devices, which include, but are not limited to, cabinets, pedestals, hand holes, and/or network access point platforms. Wireless applications with such devices and systems might include, without limitation, wireless signal transmission and reception in accordance with IEEE 802.11a/b/g/n/ac/ad/af standards, UMTS, CDMA, LTE, PCS, AWS, EAS, BRS, and/or the like. In some embodiments, an antenna might be provided within a signal distribution device, which might include a container disposed in a ground surface. A top portion of the container might be substantially level with a top portion of the ground surface. The antenna might be communicatively coupled to at least one conduit, at least one optical fiber line, at least one conductive signal line, and/or at least one power line via an apical conduit system installed in a roadway.Type: ApplicationFiled: January 28, 2019Publication date: May 23, 2019Inventors: Thomas Schwengler, John M. Heinz, Michael L. Elford
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Publication number: 20190124425Abstract: Novel tools and techniques are provided for implementing point-to-point fiber insertion within a passive optical network (“PON”) communications system. The PON communications system, associated with a first service provider or a first service, might include an F1 line(s) routed from a central office or DSLAM to a fiber distribution hub (“FDH”) located within a block or neighborhood of customer premises, via at least an apical conduit source slot, an F2 line(s) routed via various apical conduit components to a network access point (“NAP”) servicing customer premises, and an F3 line(s) distributed, at the NAP and from the F2 Line(s), to a network interface device or optical network terminal at each customer premises via various apical conduit components (e.g., in roadway surfaces). Point-to-point fiber insertion of another F1 line(s), associated with a second service provider or a second service, at either the NAP or the FDH (or outside these devices).Type: ApplicationFiled: December 10, 2018Publication date: April 25, 2019Inventors: Michael L. Elford, Michael P. Winterrowd, Thomas C. Barnett, JR., Thomas Schwengler
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Publication number: 20190107683Abstract: Novel tools and techniques are provided for implementing installation of optical fiber, non-fiber lines, and/or power lines in a ground surface. In various embodiments, a foldable base might be placed in a channel in a ground surface. The foldable base might include a base portion, two side wall portions, at least two points of articulation, and two plug contacts. Each point of articulation allows each side wall portion to fold relative with the base portion, forming a cavity. One or more lines may be placed within the cavity. A plug, placed above the lines in the cavity, may engage with the two plug contacts to secure the plug to the foldable base. Capping material, placed in microchannel on a top surface of the plug, may flow beyond the microchannel and over any openings between the plug and the foldable base and between the foldable base and edges of the channel.Type: ApplicationFiled: November 29, 2018Publication date: April 11, 2019Inventors: Michael L. Elford, Michael P. Winterrowd, Patrick J. Sims
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Patent number: 10249962Abstract: Novel tools and techniques are provided for implementing antenna structures to optimize transmission and reception of wireless signals from ground-based signal distribution devices, which include, but are not limited to, pedestals, hand holes, and/or network access point platforms. Wireless applications with such devices and systems might include, without limitation, wireless signal transmission and reception in accordance with IEEE 802.11a/b/g/n/ac/ad/af standards, UMTS, CDMA, LTE, PCS, AWS, EAS, BRS, and/or the like. In some embodiments, an antenna might be provided within a signal distribution device, which might include a container disposed in a ground surface. A top portion of the container might be substantially level with a top portion of the ground surface. The antenna might be communicatively coupled to one or more of at least one conduit, at least one optical fiber, at least one conductive signal line, or at least one power line via the container.Type: GrantFiled: August 28, 2017Date of Patent: April 2, 2019Assignee: CenturyLink Intellectual Property LLCInventors: Thomas Schwengler, John M. Heinz, Michael L. Elford
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Patent number: 10193208Abstract: Novel tools and techniques are provided for implementing antenna structures to optimize transmission and reception of wireless signals from ground-based signal distribution devices, which include, but are not limited to, cabinets, pedestals, hand holes, and/or network access point platforms. Wireless applications with such devices and systems might include, without limitation, wireless signal transmission and reception in accordance with IEEE 802.11a/b/g/n/ac/ad/af standards, UMTS, CDMA, LTE, PCS, AWS, EAS, BRS, and/or the like. In some embodiments, an antenna might be provided within a signal distribution device, which might include a container disposed in a ground surface. A top portion of the container might be substantially level with a top portion of the ground surface. The antenna might be communicatively coupled to at least one conduit, at least one optical fiber line, at least one conductive signal line, and/or at least one power line via an apical conduit system installed in a roadway.Type: GrantFiled: August 28, 2017Date of Patent: January 29, 2019Assignee: CenturyLink Intellectual Property LLCInventors: Thomas Schwengler, John M. Heinz, Michael L. Elford
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Patent number: 10156691Abstract: This document discloses novel conduits for telecommunications lines, such as optical fibers. In an aspect, a conduit might have a body defining one or more channels into which optical fibers can be inserted. In another aspect, the body might have a first face that is substantially planar and a second face opposing the first face. The second face might a low-rise arc profile and/or might be configured to be installed into a depression in a material. Also disclosed are methods and tools for installing, using, and/or removing such conduit.Type: GrantFiled: December 22, 2017Date of Patent: December 18, 2018Assignee: CenturyLink Intellectual Property LLCInventors: Michael L. Elford, Robert J. Morrill, Michael Paul Winterrowd, Thomas Charles Barnett, Jr.
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Patent number: 10154325Abstract: Novel tools and techniques are provided for implementing point-to-point fiber insertion within a passive optical network (“PON”) communications system. The PON communications system, associated with a first service provider or a first service, might include an F1 line(s) routed from a central office or DSLAM to a fiber distribution hub (“FDH”) located within a block or neighborhood of customer premises, via at least an apical conduit source slot, an F2 line(s) routed via various apical conduit components to a network access point (“NAP”) servicing customer premises, and an F3 line(s) distributed, at the NAP and from the F2 line(s), to a network interface device or optical network terminal at each customer premises via various apical conduit components (e.g., in roadway surfaces). Point-to-point fiber insertion of another F1 line(s), associated with a second service provider or a second service, at either the NAP or the FDH (or outside these devices).Type: GrantFiled: December 22, 2014Date of Patent: December 11, 2018Assignee: CenturyLink Intellectual Property LLCInventors: Michael L. Elford, Michael P. Winterrowd, Thomas C. Barnett, Jr., Thomas Schwengler
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Patent number: 10146024Abstract: Novel tools and techniques are provided for implementing installation of optical fiber, non-fiber lines, and/or power lines in a ground surface. In various embodiments, a foldable base might be placed in a channel in a ground surface. The foldable base might include a base portion, two side wall portions, at least two points of articulation, and two plug contacts. Each point of articulation allows each side wall portion to fold relative with the base portion, forming a cavity. One or more lines may be placed within the cavity. A plug, placed above the lines in the cavity, may engage with the two plug contacts to secure the plug to the foldable base. Capping material, placed in microchannel on a top surface of the plug, may flow beyond the microchannel and over any openings between the plug and the foldable base and between the foldable base and edges of the channel.Type: GrantFiled: January 10, 2018Date of Patent: December 4, 2018Assignee: CenturyLink Intellectual Property LLCInventors: Michael L. Elford, Michael P. Winterrowd, Patrick J. Sims
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Publication number: 20180301802Abstract: Novel tools and techniques are provided for implementing antenna alignment, and, more particularly, to methods, systems, and apparatuses for implementing antenna alignment using a gimbal. In various embodiments, a gimbal system might be provided. The gimbal system may be at least one of a passive two-axis gimbal, a passive three-axis gimbal, an active two-axis gimbal, and/or an active three-axis gimbal. At least one antenna may be coupled to the gimbal system. The gimbal system may be configured to compensate for at least one of a movement of a structure and/or a wind load on the at least one antenna. Additionally and/or alternatively, the gimbal system may be configured to align the antenna toward the position and orientation where there is the signal quality is optimized.Type: ApplicationFiled: December 19, 2017Publication date: October 18, 2018Inventors: Michael L. Elford, Thomas Schwengler
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Patent number: 10103532Abstract: Novel tools and techniques are provided for implementing MediaLink Interconnection Boxes (“MIBs”). In some embodiments, a plurality of MediaLink Interconnection Boxes (“MIBs”) or media interconnection devices, which may be disposed throughout a recreational vehicle (“RV”) park or other bulk service provider application sites, or the like, may serve as demarcation units designed to each provide an accessible indoor or outdoor interface where long-term or temporary/transient customers can directly connect to land line service (e.g., POTS service), video or television service, and/or Ethernet or Internet services provided by one or more service providers. Fiber-to-Drop-Point (“FTDP”) and/or point-to-point fiber insertion within a passive optical network (“PON”) communications system may be implemented using apical conduit systems in conjunction with the MIBs.Type: GrantFiled: July 17, 2017Date of Patent: October 16, 2018Assignee: CenturyLink Intellectual Property LLCInventors: Michael L. Elford, Diana L. Unser, Pete A. Kawamoto
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Patent number: 10085076Abstract: An Omedia panel may be provided that includes an at least one network interface device, a housing, and a front panel. The at least one network interface device might be in communication with a service provider network. The housing may be integrated into a wall of a customer premises and positioned within a wall cavity of the wall. The housing might be configured to support the at least one network interface device. The front panel may be communicatively interfaced with the at least one network interface device such that a user can access one or more ports of the at least one network interface device via the front panel.Type: GrantFiled: June 21, 2017Date of Patent: September 25, 2018Assignee: CenturyLink Intellectual Property LLCInventors: Michael L. Elford, Joe Fife
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Publication number: 20180196216Abstract: Novel tools and techniques are provided for implementing installation of optical fiber, non-fiber lines, and/or power lines in a ground surface. In various embodiments, a foldable base might be placed in a channel in a ground surface. The foldable base might include a base portion, two side wall portions, at least two points of articulation, and two plug contacts. Each point of articulation allows each side wall portion to fold relative with the base portion, forming a cavity. One or more lines may be placed within the cavity. A plug, placed above the lines in the cavity, may engage with the two plug contacts to secure the plug to the foldable base. Capping material, placed in microchannel on a top surface of the plug, may flow beyond the microchannel and over any openings between the plug and the foldable base and between the foldable base and edges of the channel.Type: ApplicationFiled: January 10, 2018Publication date: July 12, 2018Inventors: Michael L. Elford, Michael P. Winterrowd, Patrick J. Sims
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Publication number: 20180188072Abstract: Novel tools and techniques for a meter collar system for powerline communications are provided. The system includes a meter socket coupled to a utility power cable and a supply cable of the customer premises, and a meter collar device coupled to the meter socket. The meter collar device may include a powerline interface coupled to one or more load lines of the subscriber cable, and a line transceiver, coupled to the powerline interface. A physical layer transceiver may be coupled to a subscriber line. The meter collar device may be configured to receive, from the physical layer transceiver, a first data signal from the subscriber line, and convert the first data signal into a powerline data signal for transmission over the one or more load lines, and transmit the powerline data signal, via the line transceiver, over the one or more load lines.Type: ApplicationFiled: December 26, 2017Publication date: July 5, 2018Inventors: Thomas Charles Barnett, JR., Michael L. Elford