Performance evaluation of CCOs for the optimization of low-power pressure-based implantable wireless systems

Miguel, José; Lechuga, Y.; Allende, Miguel Ángel Rodríguez; Martínez, Mar

doi:10.1016/j.micpro.2020.103273

Cited by 2 publications

(2 citation statements)

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“…Selected the symbols in PRTs, in such a way that low PAPR is exhibited by zero-tail DFT spread OFDM signal in time domain. 27,49 Transmitter and receiver know the PRTs positions. The PAPR reduction vector P m Â n ½ and data vector D m Â n ½ are formed by splitting mth data block S m Â n ½ and expressed as,…”

Section: Tone Reservation In Dft-s-ofdmmentioning

confidence: 99%

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Retracted: Peak to average power ratio reduction of ZT DFT‐S‐OFDM signals using hybrid improved monarch butterfly optimization‐PTS scheme with TR‐clipping scheme

Lavanya

Satyanarayana

Mohatram

2021

Int J Communication

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Current research on zero-tail discrete Fourier transform spread OFDM, an add on to conventional discrete Fourier transform DFT-OFDM modulation without cyclic prefix (CP). Its low power tail is configured for coping up with channel's delay spread. Advantageous feature of ZT DFT-S-OFDM has drawn researchers for deploying it as a potential waveform candidate to fifth generation (5G). However, the intrinsic shortcoming of high peak to average power ratio (PAPR) should be alleviated. In order to improve that work, we propose a hybrid PAPR scheme that implements optimized partial transmit sequence (PTS) with tone reservation (TR) with clipping technique. Its earlier work stresses for reducing PTS scheme's computational complexity with enhanced version of monarch butterfly optimization (MBO) for PAPR reduction in ZT DFT-S-OFDM system. The proposed model reduced the correlation among the candidate signals. In this paper, we further reduce PAPR by deploying TR clipping pair, which reduces the influence of clipping noise and decreases ZT DFT-S-OFDM signal's PAPR at same time. The proposed hybrid technique produces excellent PAPR reduction while improving receiver sensitivity and effective throughout. The performance comparison is done using the parameters like PAPR and BER to confirm that this introduced design exceeds current waveforms designs with more economical design structure.clipping, monarch butterfly optimization, partial transmit sequence, peak to average power ration, tone reservation, zero-tail discrete Fourier transform spread OFDM | INTRODUCTIONCommunication systems widely use multicarrier waveforms candidates because of their high data rate transmission and their ease of propagation in multipath fading environments. They are recognized for implementation in future coming wireless systems also. Current mobile wireless standards such as IEEE 802.11, wireless local area networks (WLANs), 4G-(LTE) deployed orthogonal frequency division multiplexing waveform as a vehicle for communication. OFDM has definitely stood itself as a dominant waveform for its use in digital video and audio broadcasting (DAB-DVB). 1 Nevertheless, this waveform has few prolonged implementation issues, the predominating one being the

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Section: Tone Reservation In Dft-s-ofdmmentioning

confidence: 99%

“…Peak reduction tones (PRTs) and data tones are formed by splitting N subcarriers (tones). Selected the symbols in PRTs, in such a way that low PAPR is exhibited by zero‐tail DFT spread OFDM signal in time domain 27,49 . Transmitter and receiver know the PRTs positions.…”

Section: Structural Model Of Zt Dft‐s‐ofdmmentioning

confidence: 99%