Interactive tools I build to explain my methods and support my teaching. Each runs in the browser, with nothing to install.
An interactive visualizer for optimizing multisine excitation signals via a hybrid stochastic–deterministic (Sigmoid / Gauss–Newton) algorithm — the method behind my journal paper.
Launch demoA hands-on digitalWrite() simulator I built for teaching — students see exactly how code drives GPIO pins, in real time.
A live classroom platform with real-time monitoring and interactive views — part of my teaching toolkit at TU Chemnitz.
Open platformAn interactive comparison of manual thresholding versus Otsu's method for lane detection — an image-processing teaching demo.
Try itA step-by-step explanation of why crest-factor matters for impedance-spectroscopy excitation signals, and how the optimization works.
Read the explainerI'm continually adding interactive tools for impedance spectroscopy, battery diagnostics, and embedded DSP. Want one for your use case? Get in touch.
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