Projects
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Measuring Electric Syntropy in Biosignals: A Harmonic Proportionality Approach to EEG and ECG Analysis
Abstract Biological systems exhibit complex electrical dynamics that are commonly characterized using entropy, spectral analysis, and nonlinear complexity metrics. While entropy-based approaches quantify disorder and unpredictability, comparatively fewer frameworks attempt to quantify structured harmonic organization within biosignals. Inspired by Luigi Fantappiè’s concept of syntropy and Schrödinger’s notion of negentropy as an organizing principle in living…
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[FPolarity] Magnetic North and South Polarity on Microorganism Proliferation and Motility
Abstract Magnetic fields are a persistent environmental factor that influence biological systems across multiple scales, from molecular interactions to organism-level behavior. Previous studies have demonstrated that microorganisms can respond to magnetic exposure through changes in growth dynamics, metabolic activity, membrane transport, and directional motility. However, the differential effects of weak magnetic north and south polarity…
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[ParaMot] Low-Frequency Electromagnetic Fields and Paramecium spp. Motility
Abstract Electromagnetic fields (EMFs) are an increasingly prevalent component of modern environments and have been shown to influence a range of biological processes across microbial, plant, and animal systems. Protozoa such as Paramecium spp. provide a valuable model for studying cellular responses to environmental stimuli due to their well-characterized motility, membrane excitability, and sensitivity to…