A Generalized SDP Multi-Objective Optimization Method for EM-Based Microwave Device Design
Hleð...
Dagsetning
Höfundar
Journal Title
Journal ISSN
Volume Title
Útgefandi
MDPI AG
Úrdráttur
In this article, a generalized sequential domain patching (GSDP) method for efficient multi-objective optimization based on electromagnetics (EM) simulation is proposed. The GSDP method allowing fast searching for Pareto fronts for two and three objectives is elaborated in detail in this paper. The GSDP method is compared with the NSGA-II method using multi-objective problems in the DTLZ series, and the results show the GSDP method saved computational cost by more than 85% compared to NSGA-II method. A diversity comparison indicator (DCI) is used to evaluate approximate Pareto fronts. The comparison results show the diversity performance of GSDP is better than that of NSGA-II in most cases. We demonstrate the proposed GSDP method using a practical multi-objective design example of EM-based UWB antenna for IoT applications.
Lýsing
Publisher's version (útgefin grein)
Efnisorð
Electrical and Electronic Engineering, Analytical Chemistry, Atomic and Molecular Physics, and Optics, Multi-objective optimization, Pareto front, Microwave devices design, EM-based simulation, Generalized sequential domain patching, Ultra-wideband antennas, Automation, Rafeindaverkfræði, Bestun, Örbylgjur, Rafrásir, Hönnun, Reiknirit, Hermun, Þráðlaus kerfi, Loftnet, Sjálfvirkni
Citation
Liu, Y., Cheng, Q. S., & Koziel, S. (2019). A Generalized SDP Multi-Objective Optimization Method for EM-Based Microwave Device Design. Sensors, 19(14), 3065. https://doi.org/10.3390/s19143065