Prabhat Kumar Sharma scite author profile

This paper analyses the error and outage performances of a dual hop, decode-and-forward cooperative system where the relay is equipped with full duplex relaying capabilities in a generalised fading environment. We evaluate the error performance in terms of average symbol error rate for M-ary phase shift keying and obtain the exact closed form expression for M D 2. We also derive the exact closed form expression for outage probability considering flat, independent but not necessarily identical Nakagami-m fading channels for full duplex relaying.

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Intelligent Reflecting Surfaces to Achieve the Full-Duplex Wireless Communication

Sharma

Garg

2021

IEEE Commun. Lett.

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Outage analysis of full duplex decode and forward relaying over Nakagami-m channels

Sharma

Garg

2013

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In this paper we analyze the outage behavior of a dual hop cooperative system where the relay is equipped with full duplex relaying (FDR) capabilities that means a relay can simultaneously receive and transmit unlike half duplex relaying (HDR), where the relay cannot receive and transmit simultaneously. We consider, in this analysis, that the reception at destination via any channel other than source-relay-destination is an interference. The interference between the receiving and transmitting antennas at the relay is also taken into account. At relay, the signal received from source is first decoded and then forwarded to destination. We derive the closed form expressions for outage probability considering flat, non-identical and independent Nakagami-fading channels for both FDR and HDR. The comparison of outage performances reveals that FDR stands better than HDR for lower values of signal-to-noise ratio(SNR).

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Power-Time Splitting-Based Non-Linear Energy Harvesting in FD Short-Packet Communications

Raut

Sharma

Tsiftsis

et al. 2020

IEEE Trans. Veh. Technol.

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