Wireless Communication

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Adaptive MIMO-OFDM Scheme to Reduce Complexity and Optimize User Data Rate over Fading Channel in Wiress Sensor Networks


Affiliations
1 ECE Department, AMS Engineering College, T.N, India
     

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The use of multiple antennas at both the transmitter and receiver has been proposed as one of the best way to provide both an increase in reliability and also in information transmission rate. In this paper, the importance of the quantity and quality of the channel state information available at the communication ends is explored so as to achieve high data rates. The different architectures for various degrees of quality and quantity of CSI are studied in this work. The presented architectures are shown to be robust to the uncertainties of CSI. The main focus of this work is to dynamically provide resource allocation so as to achieve better QoS and improve system capacity.

Keywords

Multi-Input Multi-Output (MIMO), Orthogonal Frequency Division Multiplexing (OFDM), Channel Side Information (CSI).
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  • Adaptive MIMO-OFDM Scheme to Reduce Complexity and Optimize User Data Rate over Fading Channel in Wiress Sensor Networks

Abstract Views: 179  |  PDF Views: 3

Authors

L. C. Siddanna Gowd
ECE Department, AMS Engineering College, T.N, India
A. Natarajan
ECE Department, AMS Engineering College, T.N, India
M. Manikandan
ECE Department, AMS Engineering College, T.N, India
R. Pavendiran
ECE Department, AMS Engineering College, T.N, India

Abstract


The use of multiple antennas at both the transmitter and receiver has been proposed as one of the best way to provide both an increase in reliability and also in information transmission rate. In this paper, the importance of the quantity and quality of the channel state information available at the communication ends is explored so as to achieve high data rates. The different architectures for various degrees of quality and quantity of CSI are studied in this work. The presented architectures are shown to be robust to the uncertainties of CSI. The main focus of this work is to dynamically provide resource allocation so as to achieve better QoS and improve system capacity.

Keywords


Multi-Input Multi-Output (MIMO), Orthogonal Frequency Division Multiplexing (OFDM), Channel Side Information (CSI).