A Comparison Of Centralized vs. Distributed Access Architechtures for PON
By Michael Emmendorfer and Sebnem ZorluOzer,
ARRIS
|
2016 |
Ultra Low-Cost Injection-locked FP Laser Source for Coherent Access Networks
By Zhensheng (Steve) Jia, Ph.D., L. Alberto Campos, Ph.D., Mu Xu, Ph.D, Haipeng Zhang, Ph.D., Junwen Zhang, Ph.D., Chris Stengrim & Curtis Knittle, Ph.D., CableLabs
|
2019 |
Lessons From Telco & Wireless Providers: Extending The Life Of The HFC Plant With New Technologies
By Tom Cloonan, Ayham Al-Banna, Mike Emmendorfer,
Zoran Maricevic, Frank O’Keeffe, and John Ulm,
ARRIS Group, Inc.
|
2015 |
Virtualizing the Home Network
By Michael Kloberdans, CableLabs
|
2015 |
The Edge Resource Center: Leveraging NFV And SDN For High Availability / High Performance Network Function
By Jeff DeMent, Erich Arnold, and Mircea Orban, Arris Group
|
2015 |
An Analysis Of The TDMA And S-CDMA Technologies Of DOCSIS 2.0
By Fabien Buda, Emmanuel Lemois, and Hikmet Sari
Juniper Networks
|
2002 |
Impact of CCAP to CM Distance in a Remote PHY Architecture
By John T. Chapman, Gerry White, and Hang Jin, Cisco
|
2015 |
How VCMTS Paves The Way For 5G Over DOCSIS
By Brendan Ryan, Ed Dylag, Thushara Hewavithana & Eric Heaton, Intel Corporation
|
2021 |
EPoC Application & MAC Performance
By Edward Boyd, Broadcom Corporation and Kevin A. Noll, Time Warner Cable
|
2012 |
Leveraging Openflow In DOCSIS® Networks
By Chris Donley, CableLabs
|
2013 |
Head In The Cloud, Feet On The Ground: Virtualization Of The Residential Gateway
By Barak Hermesh, Shaul Shulman, Guy Ray, Paul Mannion and Eoin Walsh, Intel Corporation
|
2016 |
Estimating Downstream Performance And DOCSIS 3.1 Capacity In CAA and DAA Systems
By Michael Emmendorfer, Brent Arnold, Zoran Maricevic, Frank O'Keeffe, and Venk Mutalik,
ARRIS
|
2015 |
Follow the Yellow Brick Road: From Integrated CCAP or CCAP + Remote PHY to FMA with Remote MACPHY
By Colin Howlett, Rex Coldren & Douglas Johnson, Vecima; Jeff Finkelstein, Cox Communications
|
2021 |
How Will Proactive Network Maintenance Change Under DOCSIS® 4.0?
By Ron Hranac; Jason Rupe, Ph.D. CableLabs®; Dan Torbet, CommScope; Brady Volpe, The Volpe Firm
|
2022 |
Remote PHY 2.0: The Next Steps For Remote PHY Technology
By Pawel Sowinski, Andy Smith & Tong Liu, Cisco Systems Inc.
|
2019 |
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 |
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 |
Machine Learning Techniques for Equalizing Nonlinear Distortion
By Rob Thompson, Comcast; Xiaohua Li, State University of New York at Binghamton
|
2020 |
Nonlinear Distortions Distribution in HFC Networks
By T.C. Tsao, Arthur Yang, AT&T Taiwan Telecommunications, Co. Ltd.
|
1996 |
Mobile Backhaul over DOCSIS
By John T. Chapman, Cisco; Jennifer Andreoli-Fang, CableLabs
|
2017 |
