Y. Sönmez Et Al. , "Fitness-distance balance based artificial ecosystem optimisation to solve transient stability constrained optimal power flow problem," JOURNAL OF EXPERIMENTAL & THEORETICAL ARTIFICIAL INTELLIGENCE , vol.36, no.5, pp.745-784, 2024
Sönmez, Y. Et Al. 2024. Fitness-distance balance based artificial ecosystem optimisation to solve transient stability constrained optimal power flow problem. JOURNAL OF EXPERIMENTAL & THEORETICAL ARTIFICIAL INTELLIGENCE , vol.36, no.5 , 745-784.
Sönmez, Y., Duman, S., Kahraman, H. T., Kati, M., Aras, S., & Güvenç, U., (2024). Fitness-distance balance based artificial ecosystem optimisation to solve transient stability constrained optimal power flow problem. JOURNAL OF EXPERIMENTAL & THEORETICAL ARTIFICIAL INTELLIGENCE , vol.36, no.5, 745-784.
Sönmez, YUSUF Et Al. "Fitness-distance balance based artificial ecosystem optimisation to solve transient stability constrained optimal power flow problem," JOURNAL OF EXPERIMENTAL & THEORETICAL ARTIFICIAL INTELLIGENCE , vol.36, no.5, 745-784, 2024
Sönmez, YUSUF Et Al. "Fitness-distance balance based artificial ecosystem optimisation to solve transient stability constrained optimal power flow problem." JOURNAL OF EXPERIMENTAL & THEORETICAL ARTIFICIAL INTELLIGENCE , vol.36, no.5, pp.745-784, 2024
Sönmez, Y. Et Al. (2024) . "Fitness-distance balance based artificial ecosystem optimisation to solve transient stability constrained optimal power flow problem." JOURNAL OF EXPERIMENTAL & THEORETICAL ARTIFICIAL INTELLIGENCE , vol.36, no.5, pp.745-784.
@article{article, author={YUSUF SÖNMEZ Et Al. }, title={Fitness-distance balance based artificial ecosystem optimisation to solve transient stability constrained optimal power flow problem}, journal={JOURNAL OF EXPERIMENTAL & THEORETICAL ARTIFICIAL INTELLIGENCE}, year=2024, pages={745-784} }