A Practical Approach to Virtualizing DOCSIS 3.1 Network Functions
By David S. Early, Applied Broadband, Inc.; Paul E. Schauer, Comcast; Jason K. Schnitzer, Applied Broadband, Inc
|
2017 |
SDN Ground Truth: Implementing a Massive Scale Programmable DOCSIS Network
By Sameer Patel, Mohammad Kabir Chowdhury, Comcast, and Jason Schnitzer, Dr. David Early, Applied Broadband
|
2016 |
DOCSIS 3.1 Overdrive: Dynamic Optimization Using A Programmable Physical Layer
By Saifur Rahman and Joe Solomon,
Comcast, Jason Schnizter and Dr. David Early,
Applied Broadband
|
2016 |
A PNM System Using Artificial Intelligence, HFC Network Impairment, Atmospheric and Weather Data to Predict HFC Network Degradation and Avert Customer Impact
By Larry Wolcott, Michael O'Dell, Peter Kuykendall, Vishnu Gopal, Jason Woodrich & Nick Pinckernell, Comcast
|
2018 |
Learnings From a DAA/DOCSIS 3.1 Early Adopter
By Jim Walsh & David Hering, VIAVI Solutions; David Judge, Vodafone New Zealand
|
2018 |
A Virtual Broadband Network Gateway (vBNG) Approach for Cable Operators in a Distributed Access Environment
By Jason Combs, Comcast
|
2020 |
Requirements for Reliable Communications in HFC Based Broadband Data Networking
By Paul Nikolich, Broadband Access Systems, Inc.
|
2000 |
DOCSIS 3.1 Downstream Early Lessons Learned
By John J. Downey, Cisco Systems Inc.
|
2017 |
Optimizing DOCSIS 3.0 Configuration in the Upstream through Applied Reinforcement Learning
By Kevin Dugan, Maher Harb, Dan Rice & Robert Lund, Comcast
|
2021 |
A Telecommunication Engineer’s Guide to Applied Artificial Intelligence
By Roy Pereira, Cox Communications Inc
|
2024 |
Characterizing Network Problems Using DOCSIS® 3.1 OFDM RxMER Per Subcarrier Data
By Ron Hranac, Cisco Systems; James Medlock, Akleza,Inc.; Bruce Currivan, JJP Development; Roger Fish & Tom Kolze, Broadcom; Jason Rupe & Tom Williams, CableLabs; Larry Wolcott, Comcast
|
2019 |
Proactive Network Maintenance (PNM) Paves the Way for More Upstream Bandwidth
By Takashi Hayakawa, Mike O’Dell, Paul Schauer, Larry Wolcott; Comcast
|
2022 |
Measurement-Based EOL Stochastic Analysis And DOCSIS 3.1 Spectral Gain
By Ayham Al-Banna, David Bowler, and Xinfa Ma, ARRIS Group, Inc.
|
2015 |
Developing the DOCSIS 4.0 Playbook for the Season of 10G
By Dr. Robert Howald, Jon Cave & Olakunle Ekundare, Comcast; John Williams & Matt Petersen, Charter Communications
|
2021 |
Leveraging DOCSIS® 4.0 CM Backward Compatibility on DOCSIS 3.1 Networks
By Karthik Sundaresan, Cable Television Laboratories Inc.; Doug Jones, Cable Television Laboratories Inc.
|
2023 |
Framework for Convergence of Services on The MSO Network: Using the Principles of Network Slicing
By Fernando X. Villarruel & David Reale, Ciena
|
2020 |
DOCSIS 4.0: A Key Ingredient of the 2030's Broadband Pie
By Zoran Maricevic, Ph.D., Tom Cloonan, Ph.D. & John Ulm, CommScope; James Andis, HFC Technologies
|
2021 |
Broadening the Reach of Broadband, Powered by Distributed Access Architecture
By Katherine Aiello, Robert Howald, Frank Eichenlaub, Jason Combs; Comcast
|
2022 |
IP Networking In HFC Broadband Network
By Oleh J. Sniezko,
Xiaolin Lu,
Luisa Murcia,
AT&T Broadband
|
2001 |
Cable and Mobile Convergence: A Vision from the Cable Communities Around the World
By Jennifer Andréoli-Fang, PhD, CableLabs; John T. Chapman, Ian Campbell, & Mark Grayson, Cisco; Ahmed Bencheikh, Praveen Srivastava & Vikas Sarawat, Charter Communications; Drew Davis & Paul Blaser, Cox Communications; Damian Poltz & Dave Morley, Shaw Communications; Eduardo Panciera, Telecom Argentina; Philippe Perron, Sylvain Archambault, Eric Menu, Géraldine Trouillard & David Lagacé, Videotron; Gavin Young & Bruno Cornaglia, Vodafone
|
2020 |
