ICTACT Journal on Communication Technology

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Multilevel Feedback Queue Wavelength Assignment Algorithm in Survivable Optical WDM Networks


Affiliations
1 Department of Computer Science and Engineering, K.L.N College of Information Technology, Tamil Nadu, India
2 Department of Electronics and Communication Engineering, Indra Ganesan College of Engineering, Tamil Nadu, India
     

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In survivable optical WDM networks, finding physical routes and assigning wavelengths to light paths plays a vital role in the information transmission systems. Wavelength assignment (WA) problem is a major concern than assigning routes to the light paths. Earlier wavelength assignment algorithm suffers from unbalanced utilization of wavelength that leads to blocking probability for any connection request. Our aim is to achieve better protection without the need for extra resources. In this paper, we propose a new multilevel feedback queue wavelength assignment algorithm (MFWA) to minimize the blocking probability of the connection requests considerably. Simulation results indicate that the proposed MFWA algorithm achieves reduced connection drop rate and delay with increased bandwidth utilization and throughput.

Keywords

Optical WDM Networks, MFWA Wavelength Assignment, Connection Drop Rate, Channel Utilization, Average Queuing Delay.
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  • Multilevel Feedback Queue Wavelength Assignment Algorithm in Survivable Optical WDM Networks

Abstract Views: 248  |  PDF Views: 0

Authors

M. Arunachalam
Department of Computer Science and Engineering, K.L.N College of Information Technology, Tamil Nadu, India
V. Rajamani
Department of Electronics and Communication Engineering, Indra Ganesan College of Engineering, Tamil Nadu, India

Abstract


In survivable optical WDM networks, finding physical routes and assigning wavelengths to light paths plays a vital role in the information transmission systems. Wavelength assignment (WA) problem is a major concern than assigning routes to the light paths. Earlier wavelength assignment algorithm suffers from unbalanced utilization of wavelength that leads to blocking probability for any connection request. Our aim is to achieve better protection without the need for extra resources. In this paper, we propose a new multilevel feedback queue wavelength assignment algorithm (MFWA) to minimize the blocking probability of the connection requests considerably. Simulation results indicate that the proposed MFWA algorithm achieves reduced connection drop rate and delay with increased bandwidth utilization and throughput.

Keywords


Optical WDM Networks, MFWA Wavelength Assignment, Connection Drop Rate, Channel Utilization, Average Queuing Delay.