Abstract
Problem statement: Multi-User Multi-Input Multi-Output (MU-MIMO) system had eventually used in 4th generation wireless networks either to achieved diversity gain or multiplexing gain. Many recent scheduling addresses the threshold based resource allocation where in resource were not utilized properly. Approach: In this study a new Multi Threshold Based Channel Aware Scheduling (MTCAS) was proposed for performance improvement and proper resource utilization. This approach was projected for multiuser Multiple-Input Multiple-Output (MU-MIMO) system under Space-Time Block Coding (STBC) transmission. The goal of this scheduler was to offer improved performance in terms of a low Bit Error Rate (BER), high Packet Delivery Ratio (PDR), high average capacity and service fairness among the users. This scheme allows the set of users to send data based on their channel quality. Results: Simulation compares this scheduler performance with other scheduling schemes such as Fair Scheduling (FS), Normalized Priority Scheduling (NPS) and Threshold based Fair Scheduling (TFS). Conclusion: The obtained results prove that MTCAS has significant improvement in average bit error rate performance as compared to the other scheduling schemes.
Highlights
A wide range of mobility conditions studied in (Berger et al, 2003)
This study proposes a Multi Threshold Based Channel Aware Scheduling (MTCAS) scheme for performance improvement and resource utilization in multiuser MultipleInput Multiple-Output (MU-MIMO) system
Bit Error Rate (BER) performances of this scheme with BPSK modulations in the flat Rayleigh fading channel is compared with other scheduling schemes such as Fair Scheduling (FS), Normalized Priority Scheduling (NPS) and Threshold based Fair Scheduling (TFS)
Summary
Multi-user diversity gain extracted by Without additional bandwidth multiuser MultipleInput Multiple-Output (MU-MIMO) technology can send message to multiple user in cellular base stations and in Wireless Local Area Network (WLAN) access points. In rich multipath environments downlink data rate are linearly maximized with the number of the transmitter antenna (Vishwanath et al, 2003 and Jindal and Goldsmith, 2005). Proper scheduling in such system opportunistic scheduling proposed for single-antenna multi-user systems (Ma and Zhang, 2006) and extended for multiple-antenna systems (Torabi and Haccoun, 2011).
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