Identify regions/free spectral range M-sequence code to improve cardinality over AWG-based WDM/OCDMA networks

Yao Tang Chang; Jen Fa Huang; Chung Wei Tsailin

doi:10.1109/ICCE-Berlin.2014.7034227

Identify regions/free spectral range M-sequence code to improve cardinality over AWG-based WDM/OCDMA networks

Yao Tang Chang, Jen Fa Huang, Chung Wei Tsailin

Department of Electrical Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

This paper presents a hybrid wavelength-division multiplexing (WDM) and optical code-division multiple-access (OCDMA) scheme over fiber to-the-home (FTTH) networks. In the proposed scheme, the total wavelength spectrum of the light source is divided into both of WDM group for identify section and OCDMA group for coded orthogonal section. In order to implement the shared arrayed-waveguide grating (AWG) encoder/decoder which exploiting in accordance with the inherent periodic free-spectral-range (FSR) interval range of the AWG router, the WDM group is used to distinguish each region configured with optical network units (ONUs) group based on the various diameter of optical line terminal (OLT) center. Moreover, the OCDMA groups are implemented with delay line matrix to obtain zero cross-correlation. Compared to conventional schemes without partition of identify section, the proposed scheme shows that the cardinality of proposed scheme approximately increased 6 times and 13 times than those of conventional scheme when the scheme is only partition number of 2 and 3 identify section, respectively. Furthermore, the proposed scheme provides more flexibility that the same identify region is assigned to the same ONU groups depending on the approximately distance from the OLT location.

Original language	English
Title of host publication	Proceedings 2014 IEEE 4th International Conference on Consumer Electronics - Berlin, ICCE-Berlin
Editors	Francisco J. Bellido, Dietmar Hepper, Hans L. Cycon, Alexander Huhn
Publisher	IEEE Computer Society
Pages	299-303
Number of pages	5
Edition	February
ISBN (Electronic)	9781479961658
DOIs	https://doi.org/10.1109/ICCE-Berlin.2014.7034227
Publication status	Published - 2015 Feb 5
Event	2014 4th IEEE International Conference on Consumer Electronics - Berlin, ICCE-Berlin - Berlin, Germany Duration: 2014 Sept 7 → 2014 Sept 10

Publication series

Name	IEEE International Conference on Consumer Electronics - Berlin, ICCE-Berlin
Number	February
Volume	2015-February
ISSN (Print)	2166-6814
ISSN (Electronic)	2166-6822

Conference

Conference	2014 4th IEEE International Conference on Consumer Electronics - Berlin, ICCE-Berlin
Country/Territory	Germany
City	Berlin
Period	14-09-07 → 14-09-10

All Science Journal Classification (ASJC) codes

Electrical and Electronic Engineering
Industrial and Manufacturing Engineering
Media Technology

Access to Document

10.1109/ICCE-Berlin.2014.7034227

Cite this

Chang, Y. T., Huang, J. F., & Tsailin, C. W. (2015). Identify regions/free spectral range M-sequence code to improve cardinality over AWG-based WDM/OCDMA networks. In F. J. Bellido, D. Hepper, H. L. Cycon, & A. Huhn (Eds.), Proceedings 2014 IEEE 4th International Conference on Consumer Electronics - Berlin, ICCE-Berlin (February ed., pp. 299-303). [7034227] (IEEE International Conference on Consumer Electronics - Berlin, ICCE-Berlin; Vol. 2015-February, No. February). IEEE Computer Society. https://doi.org/10.1109/ICCE-Berlin.2014.7034227

Chang, Yao Tang ; Huang, Jen Fa ; Tsailin, Chung Wei. / Identify regions/free spectral range M-sequence code to improve cardinality over AWG-based WDM/OCDMA networks. Proceedings 2014 IEEE 4th International Conference on Consumer Electronics - Berlin, ICCE-Berlin. editor / Francisco J. Bellido ; Dietmar Hepper ; Hans L. Cycon ; Alexander Huhn. February. ed. IEEE Computer Society, 2015. pp. 299-303 (IEEE International Conference on Consumer Electronics - Berlin, ICCE-Berlin; February).

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title = "Identify regions/free spectral range M-sequence code to improve cardinality over AWG-based WDM/OCDMA networks",

abstract = "This paper presents a hybrid wavelength-division multiplexing (WDM) and optical code-division multiple-access (OCDMA) scheme over fiber to-the-home (FTTH) networks. In the proposed scheme, the total wavelength spectrum of the light source is divided into both of WDM group for identify section and OCDMA group for coded orthogonal section. In order to implement the shared arrayed-waveguide grating (AWG) encoder/decoder which exploiting in accordance with the inherent periodic free-spectral-range (FSR) interval range of the AWG router, the WDM group is used to distinguish each region configured with optical network units (ONUs) group based on the various diameter of optical line terminal (OLT) center. Moreover, the OCDMA groups are implemented with delay line matrix to obtain zero cross-correlation. Compared to conventional schemes without partition of identify section, the proposed scheme shows that the cardinality of proposed scheme approximately increased 6 times and 13 times than those of conventional scheme when the scheme is only partition number of 2 and 3 identify section, respectively. Furthermore, the proposed scheme provides more flexibility that the same identify region is assigned to the same ONU groups depending on the approximately distance from the OLT location.",

author = "Chang, {Yao Tang} and Huang, {Jen Fa} and Tsailin, {Chung Wei}",

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Chang, YT, Huang, JF & Tsailin, CW 2015, Identify regions/free spectral range M-sequence code to improve cardinality over AWG-based WDM/OCDMA networks. in FJ Bellido, D Hepper, HL Cycon & A Huhn (eds), Proceedings 2014 IEEE 4th International Conference on Consumer Electronics - Berlin, ICCE-Berlin. February edn, 7034227, IEEE International Conference on Consumer Electronics - Berlin, ICCE-Berlin, no. February, vol. 2015-February, IEEE Computer Society, pp. 299-303, 2014 4th IEEE International Conference on Consumer Electronics - Berlin, ICCE-Berlin, Berlin, Germany, 14-09-07. https://doi.org/10.1109/ICCE-Berlin.2014.7034227

Identify regions/free spectral range M-sequence code to improve cardinality over AWG-based WDM/OCDMA networks. / Chang, Yao Tang; Huang, Jen Fa; Tsailin, Chung Wei.

Proceedings 2014 IEEE 4th International Conference on Consumer Electronics - Berlin, ICCE-Berlin. ed. / Francisco J. Bellido; Dietmar Hepper; Hans L. Cycon; Alexander Huhn. February. ed. IEEE Computer Society, 2015. p. 299-303 7034227 (IEEE International Conference on Consumer Electronics - Berlin, ICCE-Berlin; Vol. 2015-February, No. February).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

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T1 - Identify regions/free spectral range M-sequence code to improve cardinality over AWG-based WDM/OCDMA networks

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N2 - This paper presents a hybrid wavelength-division multiplexing (WDM) and optical code-division multiple-access (OCDMA) scheme over fiber to-the-home (FTTH) networks. In the proposed scheme, the total wavelength spectrum of the light source is divided into both of WDM group for identify section and OCDMA group for coded orthogonal section. In order to implement the shared arrayed-waveguide grating (AWG) encoder/decoder which exploiting in accordance with the inherent periodic free-spectral-range (FSR) interval range of the AWG router, the WDM group is used to distinguish each region configured with optical network units (ONUs) group based on the various diameter of optical line terminal (OLT) center. Moreover, the OCDMA groups are implemented with delay line matrix to obtain zero cross-correlation. Compared to conventional schemes without partition of identify section, the proposed scheme shows that the cardinality of proposed scheme approximately increased 6 times and 13 times than those of conventional scheme when the scheme is only partition number of 2 and 3 identify section, respectively. Furthermore, the proposed scheme provides more flexibility that the same identify region is assigned to the same ONU groups depending on the approximately distance from the OLT location.

AB - This paper presents a hybrid wavelength-division multiplexing (WDM) and optical code-division multiple-access (OCDMA) scheme over fiber to-the-home (FTTH) networks. In the proposed scheme, the total wavelength spectrum of the light source is divided into both of WDM group for identify section and OCDMA group for coded orthogonal section. In order to implement the shared arrayed-waveguide grating (AWG) encoder/decoder which exploiting in accordance with the inherent periodic free-spectral-range (FSR) interval range of the AWG router, the WDM group is used to distinguish each region configured with optical network units (ONUs) group based on the various diameter of optical line terminal (OLT) center. Moreover, the OCDMA groups are implemented with delay line matrix to obtain zero cross-correlation. Compared to conventional schemes without partition of identify section, the proposed scheme shows that the cardinality of proposed scheme approximately increased 6 times and 13 times than those of conventional scheme when the scheme is only partition number of 2 and 3 identify section, respectively. Furthermore, the proposed scheme provides more flexibility that the same identify region is assigned to the same ONU groups depending on the approximately distance from the OLT location.

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BT - Proceedings 2014 IEEE 4th International Conference on Consumer Electronics - Berlin, ICCE-Berlin

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Chang YT, Huang JF, Tsailin CW. Identify regions/free spectral range M-sequence code to improve cardinality over AWG-based WDM/OCDMA networks. In Bellido FJ, Hepper D, Cycon HL, Huhn A, editors, Proceedings 2014 IEEE 4th International Conference on Consumer Electronics - Berlin, ICCE-Berlin. February ed. IEEE Computer Society. 2015. p. 299-303. 7034227. (IEEE International Conference on Consumer Electronics - Berlin, ICCE-Berlin; February). doi: 10.1109/ICCE-Berlin.2014.7034227

Identify regions/free spectral range M-sequence code to improve cardinality over AWG-based WDM/OCDMA networks

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