Matusu, R. Et Al. 2022. Design of Robust PI Controllers for Interval Plants With Worst-Case Gain and Phase Margin Specifications in Presence of Multiple Crossover Frequencies. IEEE ACCESS , vol.10 , 67713-67726.

Matusu, R., ŞENOL, B., ALAGÖZ, B. B., & Pekar, L., (2022). Design of Robust PI Controllers for Interval Plants With Worst-Case Gain and Phase Margin Specifications in Presence of Multiple Crossover Frequencies. IEEE ACCESS , vol.10, 67713-67726.

Matusu, Radek Et Al. "Design of Robust PI Controllers for Interval Plants With Worst-Case Gain and Phase Margin Specifications in Presence of Multiple Crossover Frequencies," IEEE ACCESS , vol.10, 67713-67726, 2022

Matusu, Radek Et Al. "Design of Robust PI Controllers for Interval Plants With Worst-Case Gain and Phase Margin Specifications in Presence of Multiple Crossover Frequencies." IEEE ACCESS , vol.10, pp.67713-67726, 2022

Matusu, R. Et Al. (2022) . "Design of Robust PI Controllers for Interval Plants With Worst-Case Gain and Phase Margin Specifications in Presence of Multiple Crossover Frequencies." IEEE ACCESS , vol.10, pp.67713-67726.

@article{article, author={Radek Matusu Et Al. }, title={Design of Robust PI Controllers for Interval Plants With Worst-Case Gain and Phase Margin Specifications in Presence of Multiple Crossover Frequencies}, journal={IEEE ACCESS}, year=2022, pages={67713-67726} }