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A reduced PAPR hybrid OFDM visible light communication system
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AbstractOrthogonal frequency division multiplexing (OFDM) is used by visible light communication (VLC) systems. Its main goal is to lessen inter-symbol interference's negative impacts. As a result, a lot of bandwidth and a high data rate are transmitted. Using OFDM-based VLC systems, nonetheless, have a high peak-to-average power ratio (PAPR). This research presents a new VLC system for indoor applications that reduces the PAPR while maintaining an acceptable bit error rate (BER). To achieve this, a hybrid pre-coding technique-based PAPR reduction solution is proposed; Vander-monde like matrix (VLM) combined with Gaussian matrix (GM). This technique takes advantage of both VLM and GM as a two stages for the signal to simultaneously reduce the PAPR and save the BER from damage. According to the results, the proposed solution (VLM in conjunction with GM) lowers the PAPR to 9.5 dB. Our system performs better when compared to other systems like discrete cosine transform (DCT), GM, VLM, DCT&GM, and original OFDM by 27%, 25%, 11%, 20%, and 34%, respectively.
Springer Science and Business Media LLC
Title: A reduced PAPR hybrid OFDM visible light communication system
Description:
AbstractOrthogonal frequency division multiplexing (OFDM) is used by visible light communication (VLC) systems.
Its main goal is to lessen inter-symbol interference's negative impacts.
As a result, a lot of bandwidth and a high data rate are transmitted.
Using OFDM-based VLC systems, nonetheless, have a high peak-to-average power ratio (PAPR).
This research presents a new VLC system for indoor applications that reduces the PAPR while maintaining an acceptable bit error rate (BER).
To achieve this, a hybrid pre-coding technique-based PAPR reduction solution is proposed; Vander-monde like matrix (VLM) combined with Gaussian matrix (GM).
This technique takes advantage of both VLM and GM as a two stages for the signal to simultaneously reduce the PAPR and save the BER from damage.
According to the results, the proposed solution (VLM in conjunction with GM) lowers the PAPR to 9.
5 dB.
Our system performs better when compared to other systems like discrete cosine transform (DCT), GM, VLM, DCT&GM, and original OFDM by 27%, 25%, 11%, 20%, and 34%, respectively.
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