Abstract: In this letter, we derive a maximum likelihood receiver of binary phase shift keying signals over Nakagami- m distributed additive noise in power ...
In this letter, we derive a maximum likelihood receiver of binary phase shift keying signals over Nakagami- m distributed additive noise in power line ...
In this paper, we derive a maximum likelihood (ML) detector for BPSK signal in PLC system following additive. Nakagami-m background noise model. The optimal ...
A maximum likelihood receiver of binary phase shift keying signals over Nakagami-m distributed additive noise in power line communication system is derived.
In this letter, we derive a maximum likelihood receiver of binary phase shift keying signals over Nakagami-m distributed additive noise in power line ...
TL;DR: This paper provides the performance analysis of a PLC system over Rayleigh fading channel under Nakagami- $m$ distributed additive background noise ...
PLC Performance Analysis Assuming BPSK Modulation Over Nakagami-m Additive Noise. A Mathur, MR Bhatnagar. IEEE Communications Letters 18 (6), 909-912, 2014. 44 ...
(PDF) Performance Evaluation of PLC Under the Combined Effect of ...
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Oct 22, 2024 · In this paper, we study the performance of a PLC system under the combined effect of Nakagami-m background noise and Middleton class A impulsive ...
This paper provides the performance analysis of a PLC system over Rayleigh fading channel under Nakagami- $m$ distributed additive background noise assuming ...
PLC Performance Analysis Assuming BPSK Modulation Over Nakagami-m Additive Noise. A Mathur, MR Bhatnagar. IEEE Communications Letters 18 (6), 909-912, 2014. 44 ...