Multicriteria Optimization of Multiconductor Modal Filters by Genetic Algorithms

Статья в сборнике трудов конференции

Multicriteria optimization by genetic algorithms is considered. We optimize novel devices for the protection against ultrashort pulses referred to as multiconductor modal filters (MF) by means of the decomposition of the pulses into a sequence of smaller pulses. A multicriteria objective function with amplitude and time criteria is formulated. Five amplitude criteria are proposed for the critical systems, as well as rangetime and interval-time criteria. To test the theory, four-criterion optimization of four parameters for a three-conductor microstrip MF has been performed. The results have shown the importance of optimization of multiconductor MF with the simultaneous use of several criteria: the three-conductor microstrip MF with attenuation factor of 21.4 times for ultrashort pulse with the duration of less than 0.6 ns/m is obtained.

Библиографическая запись: Belousov, A. O. Multicriteria Optimization of Multiconductor Modal Filters by Genetic Algorithms / A. O. Belousov, T. T. Gazizov, T. R. Gazizov. // 2017 Siberian Symposium on Data Science and Engineering (SSDSE) (12-13 Apr 2017; Novosibirsk Akademgorodok). - Novosibirsk: IEEE, 2017. - p. 65-68. - DOI 10.1109/SSDSE.2017.8071966

Конференция:

• 2017 Siberian Symposium on Data Science and Engineering (SSDSE)
• Россия, Новосибирская область, Новосибирск, 12-13 апреля 2017,
• Международная

Издательство:

Institute of Electrical and Electronics Engineers

Россия, Новосибирская область, Новосибирск