Capacity of the swedish copper access network
(2005) Nordic Conference on Radio Science and Communications, 2005- Abstract
- This paper aspires to indicate how much broadband communication the Swedish copper access network can offer
when developed to its full potential. We look at
a number of different infrastructure deployment scenarios
and calculate the Shannon capacity of the copper
loops using different deployment-dependent loop-length
distributions with different deployment-dependent and
technology-dependent noise models. We investigate both
deployment from the central-office and from the cabinet.
We consider non-cooperative scenarios, where the deployment is carried out system by system following only the mandatory standardised rules and every line is operated autonomously without... (More) - This paper aspires to indicate how much broadband communication the Swedish copper access network can offer
when developed to its full potential. We look at
a number of different infrastructure deployment scenarios
and calculate the Shannon capacity of the copper
loops using different deployment-dependent loop-length
distributions with different deployment-dependent and
technology-dependent noise models. We investigate both
deployment from the central-office and from the cabinet.
We consider non-cooperative scenarios, where the deployment is carried out system by system following only the mandatory standardised rules and every line is operated autonomously without cooperation of transceivers. We also investigate scenarios with mechanisms for better exploitation of the access plant through dynamic spectral management, multiple-input multiple-output techniques, and common-mode aided interference suppression. The choice of elementary parameters, like transmit power and background noise, is based on today’s digital subscriber line (DSL) standards. Statistical models are used for the main parameters of the network topology. Note that we are not calculating a capacity in an information theoretic sense, but rather a data rate under given constraints. (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/603370
- author
- Magesacher, Thomas LU ; Ödling, Per LU and Börjesson, Per Ola LU
- organization
- publishing date
- 2005
- type
- Chapter in Book/Report/Conference proceeding
- publication status
- published
- subject
- host publication
- Proceedings of RVK 05 RadioVetenskap och Kommunikation
- conference name
- Nordic Conference on Radio Science and Communications, 2005
- conference location
- Linköping, Sweden
- conference dates
- 2005-06-14 - 2005-06-16
- language
- English
- LU publication?
- yes
- id
- cccfcd0b-c898-406e-b8dc-58c4f7b74d34 (old id 603370)
- date added to LUP
- 2016-04-04 14:04:53
- date last changed
- 2018-11-21 21:18:09
@inproceedings{cccfcd0b-c898-406e-b8dc-58c4f7b74d34, abstract = {{This paper aspires to indicate how much broadband communication the Swedish copper access network can offer<br/><br> when developed to its full potential. We look at<br/><br> a number of different infrastructure deployment scenarios<br/><br> and calculate the Shannon capacity of the copper<br/><br> loops using different deployment-dependent loop-length<br/><br> distributions with different deployment-dependent and<br/><br> technology-dependent noise models. We investigate both<br/><br> deployment from the central-office and from the cabinet.<br/><br> We consider non-cooperative scenarios, where the deployment is carried out system by system following only the mandatory standardised rules and every line is operated autonomously without cooperation of transceivers. We also investigate scenarios with mechanisms for better exploitation of the access plant through dynamic spectral management, multiple-input multiple-output techniques, and common-mode aided interference suppression. The choice of elementary parameters, like transmit power and background noise, is based on today’s digital subscriber line (DSL) standards. Statistical models are used for the main parameters of the network topology. Note that we are not calculating a capacity in an information theoretic sense, but rather a data rate under given constraints.}}, author = {{Magesacher, Thomas and Ödling, Per and Börjesson, Per Ola}}, booktitle = {{Proceedings of RVK 05 RadioVetenskap och Kommunikation}}, language = {{eng}}, title = {{Capacity of the swedish copper access network}}, url = {{https://lup.lub.lu.se/search/files/6275908/1058036.pdf}}, year = {{2005}}, }