Adaptive downlink packet scheduling in LTE networks based on queue monitoring

The dynamic packet scheduling is a key component of LTE network to enhance the system throughput, as well as to satisfy the end users with the quality of service. However, the burst in user data traffic leads to user queue overflow at eNodeB due to resource starvation. Therefore, in this paper, queu...

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Bibliographic Details
Published in:Wireless networks 2019-08, Vol.25 (6), p.3149-3166
Main Authors: Adesh, N. D., Renuka, A.
Format: Article
Language:English
Subjects:
Algorithms
Communications Engineering
Computer Communication Networks
Delivery scheduling
Electrical Engineering
End users
Engineering
IT in Business
Markov analysis
Mobile communication systems
Monitoring
Networks
Packet transmission
Quality control
Queues
Resource allocation
Resource scheduling
Scheduling
User satisfaction
Wireless communications
Wireless networks
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Summary:The dynamic packet scheduling is a key component of LTE network to enhance the system throughput, as well as to satisfy the end users with the quality of service. However, the burst in user data traffic leads to user queue overflow at eNodeB due to resource starvation. Therefore, in this paper, queue monitoring and resource scheduling algorithms are proposed for LTE downlink transmission to reduce overflow of the user queue at eNodeB, and also to reduce the transmission time of the packet. On the other hand, this also enhances the system throughput and maintains fairness among the users. The dynamic packet scheduling mechanism first checks the queue level of user at eNodeB, channel condition of the user, resource allocation history and QoS of the packets, and then computes the priority metric of user by using these parameters. Then, using three proposed resources allocation mechanisms, the resource blocks are allocated to the users based on priority metric of user as well as queue status of user at eNodeB. The experimental results illustrate that the proposed algorithms enhance the system throughput compared to other existing schedulers. Further, it also improves packet delivery fraction and reduces the transmission time of the packets.
ISSN:1022-0038
1572-8196
DOI:10.1007/s11276-018-1708-1