Channel Crosstalk Impact on OCDMA Performance under Efficient Diagonal Code and Optimized Pulse Shaping
This paper examines the four-wave mixing (FWM) effect on optical code-division multiple-access (OCDMA) performance systems in the presence of Multi-Diagonal code (MD). System performance improvement is accomplished by means of fibre length tuning and stratified different modulation shapes, which are...
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2023
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my.uniten.dspace-255992023-05-29T16:11:31Z Channel Crosstalk Impact on OCDMA Performance under Efficient Diagonal Code and Optimized Pulse Shaping Atiya Y.S. Abd H.J. Salim N. Din N.M. Omran K. 57209320439 55548856600 55780070100 9335429400 57214099557 This paper examines the four-wave mixing (FWM) effect on optical code-division multiple-access (OCDMA) performance systems in the presence of Multi-Diagonal code (MD). System performance improvement is accomplished by means of fibre length tuning and stratified different modulation shapes, which are Non-return-to-Zero (NRZ), Gaussian, and Sine wave, all examined with 500 and 1Gb/s data rate values. The tests show that the NRZ modulation offers better system performance compared with other modulations for all data rate values used. Moreover, the second channel of each user offered better system performance than the other channels used. For instance, for 1Gb/s, at the second channel, the NRZ modulation offered the best performance with a quality factor (Q -factor) of 5.1 at 100 km fibre length, whereas the first channel introduced a worse Q-factor of 3.1 at the same fibre length value. � Published under licence by IOP Publishing Ltd. Final 2023-05-29T08:11:31Z 2023-05-29T08:11:31Z 2020 Conference Paper 10.1088/1757-899X/671/1/012054 2-s2.0-85078081513 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85078081513&doi=10.1088%2f1757-899X%2f671%2f1%2f012054&partnerID=40&md5=55fadc07220a522317b828c5bd9da10a https://irepository.uniten.edu.my/handle/123456789/25599 671 1 12054 All Open Access, Bronze Institute of Physics Publishing Scopus |
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This paper examines the four-wave mixing (FWM) effect on optical code-division multiple-access (OCDMA) performance systems in the presence of Multi-Diagonal code (MD). System performance improvement is accomplished by means of fibre length tuning and stratified different modulation shapes, which are Non-return-to-Zero (NRZ), Gaussian, and Sine wave, all examined with 500 and 1Gb/s data rate values. The tests show that the NRZ modulation offers better system performance compared with other modulations for all data rate values used. Moreover, the second channel of each user offered better system performance than the other channels used. For instance, for 1Gb/s, at the second channel, the NRZ modulation offered the best performance with a quality factor (Q -factor) of 5.1 at 100 km fibre length, whereas the first channel introduced a worse Q-factor of 3.1 at the same fibre length value. � Published under licence by IOP Publishing Ltd. |
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57209320439 |
| author_facet |
57209320439 Atiya Y.S. Abd H.J. Salim N. Din N.M. Omran K. |
| format |
Conference Paper |
| author |
Atiya Y.S. Abd H.J. Salim N. Din N.M. Omran K. |
| spellingShingle |
Atiya Y.S. Abd H.J. Salim N. Din N.M. Omran K. Channel Crosstalk Impact on OCDMA Performance under Efficient Diagonal Code and Optimized Pulse Shaping |
| author_sort |
Atiya Y.S. |
| title |
Channel Crosstalk Impact on OCDMA Performance under Efficient Diagonal Code and Optimized Pulse Shaping |
| title_short |
Channel Crosstalk Impact on OCDMA Performance under Efficient Diagonal Code and Optimized Pulse Shaping |
| title_full |
Channel Crosstalk Impact on OCDMA Performance under Efficient Diagonal Code and Optimized Pulse Shaping |
| title_fullStr |
Channel Crosstalk Impact on OCDMA Performance under Efficient Diagonal Code and Optimized Pulse Shaping |
| title_full_unstemmed |
Channel Crosstalk Impact on OCDMA Performance under Efficient Diagonal Code and Optimized Pulse Shaping |
| title_sort |
channel crosstalk impact on ocdma performance under efficient diagonal code and optimized pulse shaping |
| publisher |
Institute of Physics Publishing |
| publishDate |
2023 |
| _version_ |
1806427613759012864 |
| score |
13.214268 |