Lyons, M.R., Gilb, J.P.K., Balanis, C.A.: Enhanced domain mode operation of a shielded multilayer coplanar waveguide via substrate compression. IEEE Trans. Microw. Theory Tech. 41, 1589–1592 (1993)
Chen, E., Chou, S.Y.: Characteristics of coplanar transmission lines on multilayer substrates: modeling and experiments. IEEE Trans. Microw. Theory Tech. 45, 939–945 (1997)
Ciric, T., Dhuri, R., Marinkovic, Z., Pronic-Rancic, O., Markovic, V., Vietzorreck, L.: Neural based lumped element model of capacitive RF MEMS switches. Frequenz 72, 539–546 (2018)
Simons, R.N.: Coplanar Waveguide Circuits, Components and Systems. Wiley, New York (2001)
Gupta, K.C., Garg, R., Bahl, I., Bhartia, P.: Microstrip Lines and Slotlines. Artech House, Norwood (1996)
Hoffmann, R.K.: Handbook of Microwave Integrated Circuits. Artech House, Norwood (1987)
Root, D.E.: Future device modeling trends. IEEE Microw. Mag. 13(7), 45–59 (2012)
Zhang, H.C., Jin, J., Na, W., Zhang, Q., Yu, M.: Multivalued neural network inverse modeling and applications to microwave filters. IEEE Trans. Microw. Theory Tech. 66(8), 3781–3797 (2018)
Hornik, K., Stinchcombe, M., White, H.: Multilayer feedforward networks are universal approximators. Neural Netw. 2(5), 359–366 (1989)
Wilamowski, B.M., Yu, H.: Improved computation for Levenberg–Marquardt training. IEEE Trans. Neural Netw. 21, 930–937 (2010)
ANSYS Corporation: “HFSS–High Frequency Structure Simulator,” Suite v15. Pittsburg, PA, USA (2014)