Ş. ŞİMŞİR And N. TAŞPINAR, "An improved PTS scheme based on a novel discrete invasive weed optimization algorithm for PAPR reduction in the UFMC signal," NEURAL COMPUTING & APPLICATIONS , vol.33, no.23, pp.16403-16424, 2021
ŞİMŞİR, Ş. And TAŞPINAR, N. 2021. An improved PTS scheme based on a novel discrete invasive weed optimization algorithm for PAPR reduction in the UFMC signal. NEURAL COMPUTING & APPLICATIONS , vol.33, no.23 , 16403-16424.
ŞİMŞİR, Ş., & TAŞPINAR, N., (2021). An improved PTS scheme based on a novel discrete invasive weed optimization algorithm for PAPR reduction in the UFMC signal. NEURAL COMPUTING & APPLICATIONS , vol.33, no.23, 16403-16424.
ŞİMŞİR, ŞAKİR, And NECMİ TAŞPINAR. "An improved PTS scheme based on a novel discrete invasive weed optimization algorithm for PAPR reduction in the UFMC signal," NEURAL COMPUTING & APPLICATIONS , vol.33, no.23, 16403-16424, 2021
ŞİMŞİR, ŞAKİR And TAŞPINAR, NECMİ. "An improved PTS scheme based on a novel discrete invasive weed optimization algorithm for PAPR reduction in the UFMC signal." NEURAL COMPUTING & APPLICATIONS , vol.33, no.23, pp.16403-16424, 2021
ŞİMŞİR, Ş. And TAŞPINAR, N. (2021) . "An improved PTS scheme based on a novel discrete invasive weed optimization algorithm for PAPR reduction in the UFMC signal." NEURAL COMPUTING & APPLICATIONS , vol.33, no.23, pp.16403-16424.
@article{article, author={ŞAKİR ŞİMŞİR And author={NECMİ TAŞPINAR}, title={An improved PTS scheme based on a novel discrete invasive weed optimization algorithm for PAPR reduction in the UFMC signal}, journal={NEURAL COMPUTING & APPLICATIONS}, year=2021, pages={16403-16424} }