An optimal nonlinear companding transform with clipping scheme for universal filtered multicarrier systems

Chintala, Vijaya Durga; Anuradha, S.

doi:10.1002/dac.4587

Cited by 7 publications

References 30 publications

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Quantized precoding and companding schemes for PAPR reduction in UFMC‐based massive MIMO downlink systems

Durga

SundruAnuradha

2021

Trans Emerging Tel Tech

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Universal-filtered multi-carrier (UFMC) is a promising waveform technology, which inherits the robustness of FBMC and simplicity of OFDM. In this article, the UFMC waveform is combined with the massive multi-user multiple-input and multiple-output (MU-MIMO) technology to meet the desired needs of future wireless networks. In order to eliminate MU interference (MUI), the precoding is essential in massive MU-MIMO downlink. However, the transmitted signals produced by the precoders have high peak-to-average power ratio (PAPR), thus resulting in reduction of power efficiency of the system. Hence, this article proposes the quantized MU precoding and companding schemes to increase the power efficiency of UFMC-based massive MU-MIMO downlink systems. A nonlinear quantized precoder called squared-infinity norm Douglas-Rachford splitting (SQUID), which generates signals with constant envelope, is proposed. The proposed SQUID precoder reduces the power consumption and MUI of UFMC-based massive MU-MIMO systems. Moreover, a piecewise linear companding (PLC) scheme, which further reduces the PAPR by employing two threshold values and one companding parameter, is also proposed. The simulation results confirm that the proposed UFMC-based massive MU-MIMO with quantized nonlinear SQUID precoding provides better performance than quantized linear precoders. Besides, the proposed system with the PLC scheme offers better PAPR reduction of 4.5 dB when compared with linear nonsymmetrical transform and 𝜇-law schemes.

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Quantized precoding and companding schemes for PAPR reduction in UFMC‐based massive MIMO downlink systems

Durga

SundruAnuradha

2021

Trans Emerging Tel Tech

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Performance evaluation of hybrid transform for universal filtered multi‐carrier system

Chintala¹,

Suddapalli²,

Anuradha

2022

Trans Emerging Tel Tech

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High peak to average power ratio (PAPR) is viewed as a serious limitation of all multi‐carrier systems. In this article, a companding transform with clipping technique is proposed for universal filtered multi‐carrier (UFMC) system. The proposed companding transform successfully reduces the PAPR by expanding the small amplitude signals and compressing the peak amplitude signals. Moreover, the combination of companding and clipping further reduces the PAPR. Besides, the proposed scheme provides more flexibility by properly selecting companding parameters and clipping ratio (CR). Additionally, this article presents the performance evaluation of various nonlinear companding transforms (NCTs) of the UFMC system in terms of PAPR reduction, bit‐error‐rate, and reduced out‐of‐band emissions. Simulation results confirm that the proposed hybrid transform provides superior system performance when compared to other NCTs. The proposed hybrid transform with CR of 1.4 provides superior PAPR diminution of 8.5 dB and net gain of 8.9 dB when compared to other schemes. Finally, the proposed hybrid transform is validated by using wireless‐open access‐research platform over real time channel.

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PAPR Reduction in Universal Filtered Multicarrier Systems with Companding Transform

Chintala

Anuradha

2020

2020 Third International Conference on Advances in Electronics, Computers and Communications (ICAECC)

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Universal filtered multi carrier (UFMC) is an alternative waveform for both orthogonal frequency division multiplexing and filter bank multi carrier. High spectral efficiency is the attractive feature of 5G UFMC system. However, UFMC undergoes with high peak-to-average power ratio (PAPR), which affects the efficiency of power amplifier. Companding techniques are simple and proficient to reduce the PAPR of UFMC signals. In this paper, a linear nonsymmetrical companding transform (LNST), which reduces PAPR of UFMC signals without changing the average power of the companded signal, is proposed. In LNST scheme, the large and small amplitudes of the UFMC signal are companded with different scales depending on an inflexion point. Hence, more flexibility is available for choosing of companding parameters to get the optimal performance interms of PAPR, average power level and BER. Simulation results confirm that the LNST scheme offers better PAPR reduction and BER characteristics when compared to original UFMC signal and clipping technique. The netgain of the UFMC system with LNST companding is 3.5 dB. Also, the BER of the proposed LNST scheme is assessed for higher order modulations and it presents better BER characteristics when compared to original signal.

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An optimal nonlinear companding transform with clipping scheme for universal filtered multicarrier systems

Cited by 7 publications

References 30 publications

Quantized precoding and companding schemes for PAPR reduction in UFMC‐based massive MIMO downlink systems

Quantized precoding and companding schemes for PAPR reduction in UFMC‐based massive MIMO downlink systems

Performance evaluation of hybrid transform for universal filtered multi‐carrier system

PAPR Reduction in Universal Filtered Multicarrier Systems with Companding Transform

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