31
Mario Kosseifi, Mark Austin, Sheldon Kent Meredith, Trey Norred III: Managing network load using device application programs. AT&T Mobility II, AT&T Intellectual Property I, Hartman & Citrin, August 16, 2016: US09420555

Concepts and technologies are described herein for managing network load using device application programs. An illustrative method includes receiving, at a mobile device, a list of preferred combinations of location area codes (“LACs”), cell identifiers (“CIDs”), and times that data access by the mo ...


32
Mario Kosseifi, Mark Austin, Sheldon Kent Meredith, Trey Norred III: Managing network load using device application programs. AT&T Mobility II, AT&T Intellectual Property I, Hartman & Citrin, January 2, 2018: US09860177

Concepts and technologies are described herein for managing network load using device application programs. An illustrative method includes receiving, at a mobile device, a list of preferred combinations of location area codes (“LACs”), cell identifiers (“CIDs”), and times that data access by the mo ...


33
Mario Kosseifi, Sheldon K Meredith: System and method for dispatching field technicians based on locations of virtual warehouses. AT&T Intellectual Property I, Parks IP Law, Mickki D Murray Esq, July 10, 2012: US08219467

A method is disclosed for determining a technician to dispatch to a customer site requiring a service call. A first plurality of technicians assigned to a customer site requiring a service call is determined. A location of each of the technicians is also determined. A first plurality of distances is ...


34
Sheldon Kent Meredith, Jeremy Fix, Mario Kosseifi: Selective suppression of audio emitted from an audio source. AT&T Mobility II, Hanley Flight & Zimmerman, June 7, 2016: US09361875

Methods, apparatus, systems and articles of manufacture (e.g., physical storage media, such as storage devices and/or storage disks) to implement selective suppression of audio emitted from an audio source are disclosed. Example methods disclosed herein for audio suppression include obtaining, at a ...


35
Sheldon Kent Meredith, Jeremy Fix, Mario Kosseifi: Selective suppression of audio emitted from an audio source. AT&T Mobility II, Hanley Flight & Zimmerman, September 26, 2017: US09773492

Methods, apparatus, systems and articles of manufacture (e.g., physical storage media, such as storage devices and/or storage disks) to implement selective suppression of audio emitted from an audio source are disclosed. Example methods disclosed herein for audio suppression include sending, at a fi ...


36
Sheldon Kent Meredith, Jeremy Fix, Mario Kosseifi: Selective suppression of audio emitted from an audio source. AT&T MOBILITY II, Hanley Flight & Zimmerman, July 10, 2018: US10019979

Methods, apparatus, systems and articles of manufacture to implement selective suppression of audio emitted from an audio source are disclosed. Example apparatus disclosed herein include a speaker, an audio output driver in communication with the speaker, memory including computer readable instructi ...


37
Mario Kosseifi, Mark Austin, Sheldon Kent Meredith, Trey Norred III: Managing network load using device application programs. AT&T Mobility II, AT&T Intellectual Property I, Hartman & Citrin, November 17, 2015: US09191853

Concepts and technologies are described herein for managing network load using device application programs. An illustrative method includes receiving, at a mobile device, a list of preferred combinations of location area codes (“LACs”), cell identifiers (“CIDs”), and times that data access by the mo ...


38
Sheldon Kent Meredith, Jeremy Fix, Mario Kosseifi: Method and apparatus for determining a probability for a geo-fence. AT&T Mobility II, October 18, 2016: US09473889

A method, computer-readable storage device, and an apparatus for determining a probability for a particular geo-fence in a wireless network are disclosed. For example, the method receives a mobile identification, a location record, and an accuracy level, identifies a bin in a database of record, ide ...


39
Jeremy Fix, Mario Kosseifi, Sheldon Kent Meredith: Detection of faulty radio oscillator or faulty mobile timing measurements. AT&T MOBILITY II, Amin Turocy & Watson, May 31, 2016: US09356713

Detection of a faulty radio oscillator is provided herein. Also provided herein is detection of faulty mobile timing measurements. Timing measurements, as observed by a mobile device, and an identification of primary scrambling codes associated with the timing measurements are captured. The primary ...


40
Zihui Ge, Mario Kosseifi, Matthew Osinski, He Yan, Jennifer Yates: Method and apparatus for quantifying the customer impact of cell tower outages. AT&T Intellectual Property I, August 23, 2016: US09426665

A method, computer-readable storage device and apparatus for quantifying a total number of customers impacted by a cellular tower outage are disclosed. For example, the method monitors a plurality of cellular towers, detects a failure of one of the plurality of cellular towers, identifies a subset o ...