IRMA-International.org: Creator of Knowledge
Information Resources Management Association
Advancing the Concepts & Practices of Information Resources Management in Modern Organizations

Design and Optimization of Microwave Circuits and Devices with the Particle Swarm Optimizer

Design and Optimization of Microwave Circuits and Devices with the Particle Swarm Optimizer
View Sample PDF
Author(s): Massimo Donelli (University of Trento, Italy)
Copyright: 2013
Pages: 17
Source title: Swarm Intelligence for Electric and Electronic Engineering
Source Author(s)/Editor(s): Girolamo Fornarelli (Politecnico di Bari, Italy)and Luciano Mescia (Politecnico di Bari, Italy)
DOI: 10.4018/978-1-4666-2666-9.ch001

Purchase

View Design and Optimization of Microwave Circuits and Devices with the Particle Swarm Optimizer on the publisher's website for pricing and purchasing information.

Abstract

In this chapter, a methodology for the unsupervised design of microwave devices, circuits, and systems is considered. More specifically, the application of the Particle Swarm Optimizer and its integration with electromagnetic simulators is discussed in the framework of the microwave circuits and devices design and optimization. The idea is to automatically modify the characteristics of the device in an unsupervised way, with the goal of improve the device performances. Such kind of CAD tool could be the solution to reduce the time to market and keep the commercial predominance, since they do not require expert microwave engineers and it can reduce the computational time typical of the standard design methodologies. To assess the potentialities of the proposed method, a selected set of examples concerning the design of microwave planar devices such as filters, splitters, and other microwave devices under various operative conditions and frequency bands are reported and discussed. The chapter also includes a brief discussion concerning different strategies, such as parallel computation, to reduce the computational burden and the elaboration time. The obtained results seem to confirm the capabilities of the proposed method as effectiveness microwave CAD tool for the unsupervised design of microwave devices, circuits, and systems. The chapter ends with some conclusions and considerations related to ideas for future works.

Related Content

Shaun Ruysenaar. © 2021. 26 pages.
Rasheed O. Azeez. © 2021. 13 pages.
Ziska Fields. © 2021. 28 pages.
Chunfang Zhou, Lars Bo Henriksen, Søren Kerndrup. © 2021. 15 pages.
Cookie M. Govender. © 2021. 26 pages.
Crystal Yolande Herborn, Frances Scholtz. © 2021. 23 pages.
Ziska Fields, Zainab Mahammad Abdullah, Aidah Nakayiwa Musisi, Nadine Kirsten Mitchley. © 2021. 23 pages.
Body Bottom