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Register a new userDispersion compensation of optical fiber using monitoring technique based on clock signal
تعويض تشتت الألياف الضوئية باستخدام تقنية المراقبة المعتمدة على إشارة الساعة
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يعتبر التشتت اللوني لليف الضوئي أحد أهم العوامل المسببة لتشويه شكل الإشارات الضوئية المرسلة, و اذا لم تجرى معالجته بشكل صحيح و دقيق باستخدام المعوضات فإن ذلك سيؤدي إلى تدهور كبير في أداء نظام الاتصال الضوئي. لا يأخذ التشتت اللوني قيمة ثابتة أو معروفة على طول وصلة الليف, و هذا ما يستدعي استخدام معوضات تشتت قابلة للتوليف و التي تتطلب معلومات مستمرة عن قيمة التشتت الفعلية تقدم عن طريق وحدة مراقبة تشتت. يهتم البحث بدراسة أحد تقنيات مراقبة التشتت اللوني المعتمدة على قياس استطاعة نغمة إشارة ساعة المعطيات المرسلة و التي تتناسب مع قيمة تشتت الليف, و تم إيجاد علاقة تردد الإشارة مع مجال و دقة القياس, كذلك تم الاستفادة من هذه التقنية لتقديم إشارة تغذية عكسية لمعوض التشتت القابل للتوليف, و تم التوصل لنتائج تبين مدى التحسن الحاصل في أداء الشبكة مقارنة مع شبكات أخرى لا يجرى فيها تعويض التشتت بشكل دقيق. تم استخدام برنامج VPItransmissionmaker لمحاكاة التقنية المدروسة حيث تم التوصل من خلاله إلى نتائج مشجعة في مجال تحسين أداء الشبكات الضوئية.
The chromatic dispersion of fiber is a major factor causing distortion of the light signals, and if not being addressed using accurate compensators it will lead to a significant deterioration in the performance of optical system. The value of chromatic dispersion is not fixed along the fiber, and this necessitates the use of tunable dispersion compensators which need information about the value of dispersion which is done by dispersion monitoring. This research is Interested in analyzing chromatic dispersion technique based on the measuring of clock tone power of transmitted data and which is commensurate with the dispersion of the fiber. We found the relationship between signal frequency with range and accuracy of measurement. Also, the advantage of this technique to provide feedback signal to tunable dispersion compensator. The results show the extent of the improvement made in network performance. VPItransmissionmaker program was used to simulate the technique proposed.
References used
Chan C-K, R2010- Optical Performance Monitoring Advanced Techniques for Next-Generation Photonic Networks, John ELSEVIER Inc., California, 510p
Azadeh M, R2009- Fiber Optics Engineering, Springer Science, Heidelberg, 387p
Khan FN, R2011- Signal Processing Techniques for Optical Performance Monitoring in Dynamic Fiber Optical Networks, Hong Kong Polytechnic University, Hong Kong, 198p
Yang J-Y, R2011-OPTICAL PERFORMANCE MONITORING AND SIGNAL PROCESSING TO ENABLE ROBUST AND RECONFIGURABLE OPTICAL NETWORKS, UNIVERSITY OF SOUTHERN CALIFORNIA, CALIFORNIA, 145p
shunrong S, R2011- Optical Performance Monitoring for Next- Generation Coherent Optical Communication System Hong Kong Polytechnic University, Hong Kong, 118p
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