Impact of Non-Stationary Noise on xDSL Systems: an Experimental Analysis
(2007) SPIE Optics East Broadband Access Communication Technologies 6603.- Abstract
- Broadband services require data rates that can only be achieved by using relatively high spectrum frequencies. At such high frequencies, the DSL (Digital Subscriber Line) signal is more susceptible to external noise sources, such as radio frequency interference and impulsive noise. This paper aims to characterize how the impulsive noise impacts on services and applications for a broadband system using an ADSL2+ loop. The first approach was to use the impulsive noise defined in the standards G.996.1 (Test Procedures for DSL Transceivers) from ITU-T and TR-048 (ADSL Interoperability Test Plan) from DSL Forum. In this approach we have also used a HDSL (High Bit Rate DSL) and white noise disturbers on the line. The impulsive noises c1 and c2... (More)
- Broadband services require data rates that can only be achieved by using relatively high spectrum frequencies. At such high frequencies, the DSL (Digital Subscriber Line) signal is more susceptible to external noise sources, such as radio frequency interference and impulsive noise. This paper aims to characterize how the impulsive noise impacts on services and applications for a broadband system using an ADSL2+ loop. The first approach was to use the impulsive noise defined in the standards G.996.1 (Test Procedures for DSL Transceivers) from ITU-T and TR-048 (ADSL Interoperability Test Plan) from DSL Forum. In this approach we have also used a HDSL (High Bit Rate DSL) and white noise disturbers on the line. The impulsive noises c1 and c2 (defined in G.996.1) are injected into the circuit at the CO (Central Office) end and CPE (Customer Premises Equipment) end of the loop simulator. Additionally, it was analyzed the spikes of noise's impact on the ADSL2+ line. In this case, pre-defined models of NEXT (Near-end crosstalk) and white noise are injected on CO and CPE side, simultaneously. Metrics like packet rate, lost packet count, bandwidth, short-term average transfer delay, and errored seconds are used to characterize the DSL loop under the noise impairments. (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/1029354
- author
- Souza, Lamartine ; Cardoso, Diego ; Silva, Marcelino ; Seruffo, Marcos ; Russillo, Dário ; Costa, JWC ; Francês, Carlos ; Castro, Agostinho ; Cavalcante, Gervásio and Rius i Riu, Jaume LU
- organization
- publishing date
- 2007
- type
- Chapter in Book/Report/Conference proceeding
- publication status
- published
- subject
- host publication
- Proceedings of SPIE, the International Society for Optical Engineering
- volume
- 6603
- pages
- 9 pages
- conference name
- SPIE Optics East Broadband Access Communication Technologies
- conference dates
- 2007-09-09 - 2007-09-12
- external identifiers
-
- scopus:36248934628
- DOI
- 10.1117/12.724705
- language
- English
- LU publication?
- yes
- id
- 260a1250-0efb-45d4-97a8-8d2197e04022 (old id 1029354)
- date added to LUP
- 2016-04-04 13:15:02
- date last changed
- 2022-03-23 19:41:11
@inproceedings{260a1250-0efb-45d4-97a8-8d2197e04022, abstract = {{Broadband services require data rates that can only be achieved by using relatively high spectrum frequencies. At such high frequencies, the DSL (Digital Subscriber Line) signal is more susceptible to external noise sources, such as radio frequency interference and impulsive noise. This paper aims to characterize how the impulsive noise impacts on services and applications for a broadband system using an ADSL2+ loop. The first approach was to use the impulsive noise defined in the standards G.996.1 (Test Procedures for DSL Transceivers) from ITU-T and TR-048 (ADSL Interoperability Test Plan) from DSL Forum. In this approach we have also used a HDSL (High Bit Rate DSL) and white noise disturbers on the line. The impulsive noises c1 and c2 (defined in G.996.1) are injected into the circuit at the CO (Central Office) end and CPE (Customer Premises Equipment) end of the loop simulator. Additionally, it was analyzed the spikes of noise's impact on the ADSL2+ line. In this case, pre-defined models of NEXT (Near-end crosstalk) and white noise are injected on CO and CPE side, simultaneously. Metrics like packet rate, lost packet count, bandwidth, short-term average transfer delay, and errored seconds are used to characterize the DSL loop under the noise impairments.}}, author = {{Souza, Lamartine and Cardoso, Diego and Silva, Marcelino and Seruffo, Marcos and Russillo, Dário and Costa, JWC and Francês, Carlos and Castro, Agostinho and Cavalcante, Gervásio and Rius i Riu, Jaume}}, booktitle = {{Proceedings of SPIE, the International Society for Optical Engineering}}, language = {{eng}}, title = {{Impact of Non-Stationary Noise on xDSL Systems: an Experimental Analysis}}, url = {{http://dx.doi.org/10.1117/12.724705}}, doi = {{10.1117/12.724705}}, volume = {{6603}}, year = {{2007}}, }