An Experimental Study of the Return-Path Performance of a DOCSIS System
By Thomas K. Fong, Ph.D. @Home Network, Bill Kostka Cable Television Laboratories, Inc and John Chen, Cisco Systems, Inc.
|
1999 |
Managing The HFC Environment Using Cable Modem Derived Performance Data
By Rex Bullinger, @Home Network
|
1999 |
Performance Of Digital Transmission Techniques For Cable Television Systems
By Richard S. Prodan, Ph.D.,
Cable Television Laboratories, Inc
|
1992 |
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 |
Performance Of Cable Modem Systems
By Thomas E. Moore, Kenneth R. Martin, Robert S. Cruickshank III, Cable Television Laboratories, Inc
|
1997 |
Characterization of Return Path Optical Transmitters for Enhanced Digitally Modulated Carrier Transmission Performance
By John J. Kenny, Ph.D., Antec Technology Center
Atlanta, Georgia
|
1997 |
How DOCSIS Time Protocol Makes the SYNC Specification Tick
By Elías Chavarría Reyes, Ph.D. & John T. Chapman, Cisco Systems, Inc
|
2020 |
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 |
An Overview of the DOCSIS Two Way Physical Layer
By Bill Kostka
|
1998 |
DOCSIS Time Protocol Proof of Concept
By Ruoyu (Roy) Sun, Jennifer Andreoli-Fang, Aaron Quinto & Mark Poletti, CableLabs, Inc.; Charles Cook, Ryan Tucker, Vikas Sarawat & Praveen Srivastava, Charter Communications, Inc.; John Chapman & Eric Houby, Cisco Systems, Inc.; Elias Chavarria Reyes, Wen Chun Wei & Vincent Cho, Hitron Technologies, Inc.
|
2021 |
Designing a Cloud-Based DOCSIS Time Protocol Calibration Database
By Roy Sun, Rahil Gandotra, Ph.D. & Mark Poletti, CableLabs, Inc.; Jennifer Andreoli-Fang, Ph.D., Amazon Web Services (AWS); Elias Chavarria Reyes, Ph.D., Hitron Technologies, Inc.; John Chapman, Cisco Systems, Inc.
|
2021 |
The Path to 100 Gbps DAA Nodes: Analyzing DOCSIS Bandwidth and its Impact on the CIN
By John T Chapman, Cisco Systems
|
2021 |
Analysis of Cable System Digital Transmission Characteristics
By Richards. Prodan, Majid Chelehmal,Thomas H. William, Craig M. Chamberlain, Cable Television Laboratories, Inc.
|
1994 |
Implementation Of Stereoscopic 3D Systems On Cable
By David K. Broberg, Cable Television Laboratories, Inc. and Mark Francisco, Comcast Cable Communications, Inc.
|
2010 |
Access Network Operations Savings Through Extending Automation
By John Holobinko & Todd Greene, Cisco Systems, Inc.; Ron Zimmerman, Cox Communications, Inc.
|
2017 |
Advanced Television Research Activities At Cablelabs
By Craig K. Tanner, Cable Television Laboratories, Inc.
|
1991 |
Blueprint for 3 GHz, 25 Gbps DOCSIS
By John T Chapman & Hang Jin, Cisco Systems; Thushara Hewavithana, Intel Corporation; Rainer Hillermeier, Qorvo
|
2019 |
Full Duplex DOCSIS
By John T. Chapman and Hang Jin, Cisco
|
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 |
Analysis And Prediction Of Peak Data Rates Through DOCSIS Cores
By John Holobinko, Glenn McGilvray & John Ritchie, Cisco Systems, Inc.
|
2018 |
