L. Latifoğlu And E. Kaya, "High‑performance prediction model combining minimum redundancy maximum relevance, circulant spectrum analysis, and machine learning methods for daily and peak streamfow," THEORETICAL AND APPLIED CLIMATOLOGY , pp.1-23, 2023
Latifoğlu, L. And Kaya, E. 2023. High‑performance prediction model combining minimum redundancy maximum relevance, circulant spectrum analysis, and machine learning methods for daily and peak streamfow. THEORETICAL AND APPLIED CLIMATOLOGY , 1-23.
Latifoğlu, L., & Kaya, E., (2023). High‑performance prediction model combining minimum redundancy maximum relevance, circulant spectrum analysis, and machine learning methods for daily and peak streamfow. THEORETICAL AND APPLIED CLIMATOLOGY , 1-23.
Latifoğlu, LEVENT, And Esra Kaya. "High‑performance prediction model combining minimum redundancy maximum relevance, circulant spectrum analysis, and machine learning methods for daily and peak streamfow," THEORETICAL AND APPLIED CLIMATOLOGY , 1-23, 2023
Latifoğlu, LEVENT And Kaya, Esra. "High‑performance prediction model combining minimum redundancy maximum relevance, circulant spectrum analysis, and machine learning methods for daily and peak streamfow." THEORETICAL AND APPLIED CLIMATOLOGY , pp.1-23, 2023
Latifoğlu, L. And Kaya, E. (2023) . "High‑performance prediction model combining minimum redundancy maximum relevance, circulant spectrum analysis, and machine learning methods for daily and peak streamfow." THEORETICAL AND APPLIED CLIMATOLOGY , pp.1-23.
@article{article, author={LEVENT LATİFOĞLU And author={Esra Kaya}, title={High‑performance prediction model combining minimum redundancy maximum relevance, circulant spectrum analysis, and machine learning methods for daily and peak streamfow}, journal={THEORETICAL AND APPLIED CLIMATOLOGY}, year=2023, pages={1-23} }