Search

Travis Halky

from Palm Beach Gardens, FL
Get Report
Connected to:
Shannon J Halkyard, 52Abigail Hall, 29Acem Hall, 44Ahmod R Hall, 39Alexandria S Hall, 33Alexis Hall, 43Alexsis C Hall, 36Alexus A Hall, 27Alfonso Hall, 34Alfredo O Hall, 70

Travis Halky Phones & Addresses

  • Palm Beach Gardens, FL
  • 1401 Taft St, Arlington, VA 22201
    • s
  • 829 University Blvd #107, Jupiter, FL 33458
  • 31 Washington St, Trumbull, CT 06611
  • Alexandria, VA

Work

Company: Dycom industries May 2010 to Oct 2019 Position: Senior business analyst

Education

Degree: Bachelors, Bachelor of Science School / High School: Carnegie Mellon University 1997 to 2001 Specialities: Computer Engineering

Skills

Agile Methodologies • Requirements Analysis • Requirements Gathering • Business Requirements • Software Project Management • Business Process

Ranks

Certificate: Associate Web Developer

Industries

Telecommunications

Resumes

Resumes

Travis Halky Photo 1

Lead Software Engineer

View page
Location:
West Palm Beach, FL
Industry:
Telecommunications
Work:
Dycom Industries May 2010 - Oct 2019
Senior Business Analyst
Dycom Industries May 2010 - Oct 2019
Lead Software Engineer
Education:
Carnegie Mellon University 1997 - 2001
Bachelors, Bachelor of Science, Computer Engineering
Skills:
Agile Methodologies
Requirements Analysis
Requirements Gathering
Business Requirements
Software Project Management
Business Process
Certifications:
Associate Web Developer

Business Records

Name / Title
Company / Classification
Phones & Addresses
Travis Halky
Managing
Dime Divas, LLC
Business Services at Non-Commercial Site · Nonclassifiable Establishments
514 Pelican Ln N, Jupiter, FL 33458

Publications

Us Patents

Ingress-Mitigated Cable Communication Systems And Methods Having Increased Upstream Capacity For Supporting Voice And/Or Data Services

View page
US Patent:
8543003, Sep 24, 2013
Filed:
Nov 5, 2012
Appl. No.:
13/669154
Inventors:
Ronald Totten - Strafford NH, US
Travis Halky - Jupiter FL, US
Assignee:
Certusview Technologies, LLC - Palm Beach Gardens FL
International Classification:
H04B 10/00
H04J 14/00
H04B 10/114
US Classification:
398115, 398 71
Abstract:
Cable communication systems and methods to provide voice and/or data services to subscriber premises in one or more neighborhood nodes via an ingress-mitigated cable plant that conveys upstream information over an upstream path bandwidth. One or more upstream radio frequency (RF) signals have a carrier frequency of between approximately 5 MHz and 19. 6 MHz and are modulated using quadrature amplitude modulation (QAM) with voice and/or data information constituting at least some of the upstream information. An example RF signal defines a channel having an average channel power, and a highest value for an average noise power between 5 MHz and 19. 6 MHz in the upstream path bandwidth of a given neighborhood node, as measured over at least a 24 hour period, is at least 25 decibels (dB) below the average channel power and/or less than 20 decibels (dB) above a noise floor associated with the neighborhood node.

Methods For Ingress Mitigation In Cable Communication Systems Involving Repair, Replacement And/Or Adjustment Of Infrastructure Elements

View page
US Patent:
8578437, Nov 5, 2013
Filed:
Nov 5, 2012
Appl. No.:
13/669064
Inventors:
Ronald Totten - Strafford NH, US
Travis Halky - Jupiter FL, US
Assignee:
Certusview Technologies, LLC - Palm Beach Gardens FL
International Classification:
H04N 7/173
US Classification:
725125
Abstract:
Methods for reducing ingress in a neighborhood node of a cable communication system. The node includes an RF hardline coaxial cable plant and multiple subscriber service drops to convey upstream information from multiple subscriber premises over an upstream path bandwidth. A test signal having a frequency falling within the upstream path bandwidth is transmitted proximate to one or more potential points of ingress into the hardline cable plant. Based on signal amplitudes at the test signal frequency representing test signal ingress into the hardline cable plant, one or more faults in the hardline cable plant are specifically identified and remediated so as to significantly reduce a noise power in the node in at least a portion of the upstream path bandwidth below approximately 20 MHz. In one example, hardline plant-related and/or subscriber-related faults are remediated so as to significantly reduce ingress arising from terrestrial short wave radio signals.

Cable Communication Systems And Methods Employing 256-Qam Upstream Channels And Having Increased Upstream Capacity For Supporting Voice And/Or Data Services

View page
US Patent:
8650606, Feb 11, 2014
Filed:
Nov 5, 2012
Appl. No.:
13/669172
Inventors:
Ronald Totten - Strafford NH, US
Travis Halky - Jupiter FL, US
Assignee:
CertusView Technologies, LLC - Palm Beach Gardens FL
International Classification:
H04N 7/173
G01R 31/08
G06F 11/00
G08C 15/00
H04J 1/16
H04J 3/14
H04L 1/00
H04L 12/26
US Classification:
725111, 725105, 725107, 725114, 370241, 370244, 370252
Abstract:
Cable communication systems and methods to provide voice and/or data services to subscriber premises via a cable plant that conveys upstream information over an upstream path bandwidth, and a cable modem system including one or more demodulation tuners to receive and demodulate one or more upstream radio frequency (RF) signals. An RF signal includes an encoded carrier wave having a carrier frequency of between approximately 5 MHz and at least approximately 42 MHz that is modulated using quadrature amplitude modulation (QAM) with voice and/or data information constituting at least some of the upstream information. A modulation order of the QAM for the first upstream RF signal is at least 256, and at least one demodulation tuner of the cable modem system is configured to receive and demodulate the first upstream RF signal.

Neighborhood Node Mapping Methods And Apparatus For Ingress Mitigation In Cable Communication Systems

View page
US Patent:
20130004179, Jan 3, 2013
Filed:
Jun 30, 2012
Appl. No.:
13/539383
Inventors:
Steven Nielsen - North Palm Beach FL, US
Ronald Totten - Strafford NH, US
Travis Halky - Jupiter FL, US
International Classification:
H04B 10/00
US Classification:
398115
Abstract:
A mobile transmitter traverses a drive path in a neighborhood node of a cable communication system and broadcasts a test signal at frequencies falling within an upstream path bandwidth. A navigational device generates a first record of positions of the transmitter along the drive path, and an analyzer monitors the upstream path bandwidth and generates a second record of received signal amplitudes of the transmitted test signal as a function of time. An ingress map is generated showing the drive path and potential points of ingress in the node, and employed to remediate faults particularly in the hardline coaxial cable plant. Iterative generation of maps and corresponding remediation in the node enable improved cable communication systems with reduced noise profiles between 5 MHz and 20 MHz and employing higher modulation order QAM communication channels (e.g., 256-QAM and higher) throughout the upstream path bandwidth to increase upstream capacity.

Cable Communication Systems And Methods Employing Tdma/Atdma Qam Upstream Channels Below 20 Mhz For Increased Upstream Capacity To Support Voice And/Or Data Services

View page
US Patent:
20130088993, Apr 11, 2013
Filed:
Nov 30, 2012
Appl. No.:
13/690739
Inventors:
Ronald Totten - Strafford NH, US
Travis Halky - Jupiter FL, US
Assignee:
CERTUSVIEW TECHNOLOGIES, LLC - Palm Beach Gardens FL
International Classification:
H04W 52/22
H04J 3/16
H04J 3/00
US Classification:
370252, 370347, 370348
Abstract:
Cable communication systems and methods to provide voice and/or data services to subscriber premises via a cable plant that conveys upstream information over an upstream path bandwidth, and a cable modem system including one or more demodulation tuners to receive and demodulate one or more upstream radio frequency (RF) signals. An RF signal includes an encoded carrier wave having a carrier frequency of between 5 MHz and 19.6 MHz that is modulated using a Time Division Multiple Access (TDMA) protocol or an Advanced Time Division Multiple Access (ATDMA) protocol and quadrature amplitude modulation (QAM) with voice and/or data information constituting at least some of the upstream information. A modulation order of the QAM for the first upstream RF signal is at least 32, and at least one demodulation tuner of the cable modem system is configured to receive and demodulate the first upstream RF signal.

Iterative Mapping Methods For Ingress Mitigation In Cable Communication Systems

View page
US Patent:
20130094369, Apr 18, 2013
Filed:
Nov 5, 2012
Appl. No.:
13/669092
Inventors:
Ronald Totten - Strafford NH, US
Travis Halky - Jupiter FL, US
Assignee:
CERTUSVIEW TECHNOLOGIES, LLC - Palm Beach Gardens FL
International Classification:
H04L 12/26
US Classification:
370242
Abstract:
Methods for reducing ingress in a neighborhood node of a cable communication system. The node includes a hardline cable plant and multiple subscriber service drops to convey upstream information from multiple subscriber premises over an upstream path bandwidth. A mobile broadcast apparatus equipped with a transmitter is directed along a drive path proximate to the hardline plant, and a test signal having a frequency falling within the upstream path bandwidth is broadcast along the drive path. Respective positions of the broadcast apparatus, and signal amplitudes at the test signal frequency representing test signal ingress in the node due to one or more hardline plant-related and/or subscriber-related faults, are recorded, and a neighborhood node ingress map is generated. Following remediation of one or more faults based on the map, the process is repeated to generate one or more additional iterations of the map to document a progression of ingress mitigation efforts.

Cable Communication Systems And Methods Employing Qam Upstream Channels Below 16.4 Mhz For Increased Aggregate Deployed Upstream Capacity To Support Voice And/Or Data Services

View page
US Patent:
20130094859, Apr 18, 2013
Filed:
Nov 30, 2012
Appl. No.:
13/690814
Inventors:
Ronald Totten - Strafford NH, US
Travis Halky - Jupiter FL, US
Assignee:
CERTUSVIEW TECHNOLOGIES, LLC - Palm Beach Gardens FL
International Classification:
H04B 10/2575
US Classification:
398 66
Abstract:
Cable communication systems and methods to provide voice and/or data services to subscriber premises via a cable plant that conveys upstream information over an upstream path bandwidth, and a cable modem system including one or more demodulation tuners to receive and demodulate one or more upstream radio frequency (RF) signals. One or more RF signals include an encoded carrier wave having a carrier frequency of between 5 MHz and 16.4 MHz that is modulated using a Time Division Multiple Access (TDMA) protocol or an Advanced Time Division Multiple Access (ATDMA) protocol and quadrature amplitude modulation (QAM) with voice and/or data information constituting at least some of the upstream information. An aggregate deployed upstream capacity of the one or more RF signals to convey the upstream information in a portion of the upstream path bandwidth between 5 MHz and 16.4 MHz is at least approximately 12 Megabits per second (Mbits/s).

Cable Communication Systems And Methods Employing Qam Upstream Channels Below 16.4 Mhz For Increased Aggregate Deployed Upstream Capacity

View page
US Patent:
20140010542, Jan 9, 2014
Filed:
Sep 9, 2013
Appl. No.:
14/022096
Inventors:
Ronald Totten - Strafford NH, US
Travis Halky - Jupiter FL, US
Assignee:
CERTUSVIEW TECHNOLOGIES, LLC - Palm Beach Gardens FL
International Classification:
H04B 10/2575
US Classification:
398 66
Abstract:
Cable communication systems and methods to provide voice and/or data services to subscriber premises via a cable plant that conveys upstream information over an upstream path bandwidth via one or more upstream radio frequency (RF) signals. One or more RF signals include an encoded carrier wave having a carrier frequency of between 5 MHz and 16.4 MHz that is modulated using a Time Division Multiple Access (TDMA) protocol or an Advanced time Division Multiple Access (ATDMA) protocol and quadrature amplitude modulation (QAM) with voice and/or data information constituting at least some of the upstream information. An aggregate deployed upstream capacity of the one or more RF signals to convey the upstream information in a portion of the upstream path bandwidth between 5 MHz and 16.4 MHz is at least approximately 12 Megabits per second (Mbits/s).
Control profile
Travis Halky from Palm Beach Gardens, FL Get Report