Energy Efficiency and BER analysis of Concatenated FEC Coded MIMO-OFDM-FSO System

Panda, Chinmayee; Bhanja, Urmila

doi:10.1109/icaecc54045.2022.9716656

Cited by 8 publications

(2 citation statements)

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“…The less utilization of the antenna in the MIMO system creates high interference and noise within the wireless channels. In order to improve the channel's capacity, multiple antennas need to be integrated at both the transmitter and receiver sides 5 …”

Section: Introductionmentioning

confidence: 99%

“…In order to improve the channel's capacity, multiple antennas need to be integrated at both the transmitter and receiver sides. 5 In the OFDM system, the channel gets differentiated into small sub-band channels for securing the data during transmission. The data transmission in the OFDM system is in parallel form thus, the flexibility and robustness of the system remain constant.…”

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A novel Block Bi‐diagonalization based pre‐coding scheme for bit error reduction in mutiple input multiple output‐orthogonal frequency division multiplexing

Paul

Roy

Bhattacharjee

2023

Int J Communication

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The MIMO-OFDM increases spectral efficiency without the use of channel state information (CSI). However, the bit error rate (BER) in the MIMO-OFDM model increases dramatically due to the increase in nonlinear distortion in the power amplifier (PA). In this research, a novel pre-coder integrated MIMO-OFDM technology is designed for effective BER reduction, and its performance is analyzed. The discrete wavelet-based OFDM system is one of the key ideas to present good orthogonal by emphasizing orthogonal wavelets. It helps to mitigate inter-symbol interference (ISI) and noise within the channel by extending the bandwidth (BW) compared to conventional OFDM systems. But, DWT-OFDM highly suffered due to downsampling, which degrades system efficiency. To overcome this, a redundant discrete wavelet transform (RDWT) is proposed in this article to enhance spectral efficiency. For modulation, 16-bit quadrature amplitude modulation (QAM) is introduced in this work. In addition to this, a block bi-diagonalization (BBD) pre-coder technique is proposed to mitigate unwanted noise and interference in the MIMO-OFDM system. The performance measures such as ergodic sum capacity, BER, throughput, average jitter noise power, mean square error (MSE), and power consumption are analyzed using the MATLAB platform. The proposed method obtains the ergodic sum capacity of 6.25 bps/Hz, a BER of 0.021, a throughput of 95.2%, MSE of À0.47, and a power consumption of 1.15 μW. The simulative results prove the efficacy of the proposed method.16-bit QAM, bit error rate reduction, block bi-diagonalization pre-coder, MIMO-OFDM, redundant discrete wavelet transform | INTRODUCTIONThe design of the future wireless system is one of the key areas of interest for researchers and scientists. 1 Nowadays, the number of users increases due to the tremendous growth of wireless applications. Hence, an effective communication system is highly required under cost and low hardware complexity. The MIMO model is one of the efficient communication systems that can integrate multiple users and allocate effective channels for smooth communication. The MIMO antenna consists of multiple transmitting and receiving antennas widely used in wireless communications

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Section: Introductionmentioning

confidence: 99%

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confidence: 99%