Title :
HDGS bandstop filter design by FGA
Author :
Yan, Dong ; Zeng, Xiaoping ; Zhang, Kai
Author_Institution :
Coll. of Commun. Eng., Chongqing Univ., Chongqing, China
Abstract :
A new fuzzy genetic algorithm (FGA) is developed to optimize Hilbert fractal defected ground structure (HDGS), designed bandstop filter. The genetic operators (crossover and mutation) are self-adaptively adjusted by fuzzy controller of the algorithm, so convergent character and global optimization are improved. Fitness function is constructed by the HDGS stopband and pass-band transmission characteristics S21. S21 is obtained by using PML- FDTD method. To 500M-3GHz band center frequency of 2.4GHz, 200MHz bandwidth, the band stop filter is designed to target. The simulation results show that this method than the traditional genetic algorithm, faster convergence rate, and bandstop filter designed HDGS with large stop-band insertion loss and return loss, flat pass-band characteristics.
Keywords :
Hilbert spaces; band-pass filters; band-stop filters; convergence of numerical methods; finite difference time-domain analysis; fractals; fuzzy control; genetic algorithms; losses; mathematical operators; microwave filters; FGA; HDGS bandstop filter design; Hilbert fractal defected ground structure; PM-FDTD method; bandwidth 200 MHz; convergence rate; crossover operator; fitness function; frequency 0.5 GHz to 3 GHz; fuzzy controller; fuzzy genetic algorithm; genetic operators; global optimization; insertion loss; mutation operator; pass-band transmission; return loss; stopband transmission; Convergence; Filtering algorithms; Fractals; Microstrip; Microstrip filters; Microwave filters; Optimization; Defected ground structure; FDTD method; Hilbert fractal curve; fuzzy control; genetic algorithm;
Conference_Titel :
Information Computing and Telecommunications (YC-ICT), 2010 IEEE Youth Conference on
Conference_Location :
Beijing
Print_ISBN :
978-1-4244-8883-4
DOI :
10.1109/YCICT.2010.5713138
