![]() Currently, MWP uses photonic technology to process signals in microwave systems that are complex or not even directly possible in the radiofrequency (RF) domain. Microwave photonics (MWP) is an interdisciplinary field that studies the interaction between microwave and optical signals on optoelectronic devices, for applications such as broadband wireless access networks, sensor networks, satellite communications and instrumentation. The developed software includes both analog and digital modulation formats, giving potential application not only to facilitate and guide microwave photonic systems courses but also in fiber optic communication systems. The design in this paper is well described and supported by a mathematical method. With this software, we can select between a single-mode or a multimode optical source, as well as, edit the parameters which determine the frequency response such as the chromatic dispersion parameter and the length of the optical fiber. ![]() The interface is designed with the adoption of new research approaches, such as active learning, allowing the student to deepen their understanding of the microwave photonics systems concepts. This computational tool allows undergraduate students involved in the study of optical communications to complement its formation in the classroom. This work describes the design and implementation of a novel computer simulation technique based on MATLABĀ® App Designer to compute the frequency response of a microwave photonic filter.
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