Title :
Evolving sinusoidal oscillators using genetic algorithms
Author_Institution :
Netaji Subhas Inst. of Technol., New Delhi, India
Abstract :
In the present paper, single-opamp sinusoidal oscillators are synthesized using genetic algorithms. The motivation is to evolve new topologies of oscillators using different active building blocks (ABBs) and automate the study of their properties. A new fitness evaluation scheme by analyzing transfer function of the circuits is used and a learning scheme loosely inspired from Lamarckian search is also suggested. A new problem specific crossover operator is tested and a comparative study of different crossover operators is done. On comparison of the results of the GA with existing results, it was found that the GA rediscovered all the twelve canonic singleopamp based SFOs. Some new interesting opamp, OTRA and DDCC based topologies of oscillators are also presented. It is clearly explained how this study can be extended to other ABBs or multiple ABBs.
Keywords :
genetic algorithms; oscillators; transfer functions; waveform generators; GA; Lamarckian search; active building blocks; canonic single opamp based SFO; circuit transfer function analysis; fitness evaluation; genetic algorithm; oscillator topology evolution; single-opamp sinusoidal oscillator synthesis; sinusoidal oscillator evolution; specific crossover operator testing; Capacitors; Circuit synthesis; Circuit testing; Circuit topology; Frequency; Genetic algorithms; Oscillators; Paper technology; Total harmonic distortion; Transfer functions;
Conference_Titel :
Evolvable Hardware, 2003. Proceedings. NASA/DoD Conference on
Print_ISBN :
0-7695-1977-6
DOI :
10.1109/EH.2003.1217647
