@article{article_409993, title={An implementation of chaotic circuits with Multisim-LabVIEW}, journal={International Advanced Researches and Engineering Journal}, volume={2}, pages={304–308}, year={2018}, author={Şahin, Muhammet Emin and Bulut, Gülden Günay and Güler, Hasan}, keywords={Chaos,Chaotic Systems,Labview,Sprott Chaotic System,Multisim}, abstract={<p class="MsoNormal" style="text-align:justify;"> <span lang="tr" style="font-size:9pt;line-height:115%;color:#222222;" xml:lang="tr">In last decades, chaos phenomenon and chaotic systems are defined as a
nonlinear behavior have received a plenty of attention. In many areas, a
chaotic system is used due to chaotic signals depend very sensitively on
initial conditions, have unpredictable features and noise like wideband spread
spectrum. In literature as well as the basic chaotic systems, there are many
hybrid chaotic systems. In this paper, Sprott case A chaotic system is formed
by using OP-AMPS and other appropriate circuit components on Multisim
environment. This model is being constructed for each chaotic system, so the
results of mathematical simulations of these chaotic differential equations can
be seen. Convenient chaotic behavior is observed, circuit simulation is
conducted via co-simulation between Multisim and LabVIEW. The simulation
results show similar behavior when it is compared with the theoretical chaotic
system. </span> </p> <p> </p>}, number={3}, publisher={Ceyhun YILMAZ}