alberto-battistel
I am a postdoctoral research assistant working in biomedical engineering. Computer simulations, electrical and radio-frequency measurements
Institute of Technical Medicine (ITeM), Hochschule Furtwangen University (HFU)Villingen-Schwenningen
Pinned Repositories
agros2d
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AnExtendedHilbertTransform
An extended Hilbert transform
Arch-linux-installation
Sequence of steps to perform to install an Arch Linux distribution with KDE environment on a virtual machine.
custom-xfce-panels
a simple guide to use when creating your gtk.css file for
DMFA-spectrum-fit
Fitting of impedance spectra directly in the frequency domain.
for90-mom2
Fortran 90 code for Method of Moments discretized integral operator formulations of EM scattering from dielectric/lossy/plasmonic/PEC objects (rewritten from the original for90-mom).
Matlab-Picoscope
script to aquire from picoscope with Matlab
my-analog-discovery-2
Teensy-EIS
Transform your teensy 3.6 (pjrc.com) into an instrument for electrochemical impedance spectroscopy.
VoltammetrySimulator
EC simulator is a user friendly package for voltammetry simulation developed using Matlab. This package is capable to simulate the electrode process of four reaction mechanisms and two typical electroanalysis techniques: cyclic voltammetry and chronoamperometry. It also provide some basic analysis tools, i.e., find peaks in the voltammograms, export the dynamic concentration of the chemicals near the electrode, fitting the experimental voltammograms to obtain the reaction parameters. Theres is a compiled version for win64, you can download here https://raw.githubusercontent.com/wangshuoleon/archive/master/VoltammetrySimulator.zip, before you run the simulator, install the Matlab runtime first https://www.mathworks.com/supportfiles/MCR_Runtime/R2012a/MCR_R2012a_win64_installer.exe .
alberto-battistel's Repositories
alberto-battistel/VoltammetrySimulator
EC simulator is a user friendly package for voltammetry simulation developed using Matlab. This package is capable to simulate the electrode process of four reaction mechanisms and two typical electroanalysis techniques: cyclic voltammetry and chronoamperometry. It also provide some basic analysis tools, i.e., find peaks in the voltammograms, export the dynamic concentration of the chemicals near the electrode, fitting the experimental voltammograms to obtain the reaction parameters. Theres is a compiled version for win64, you can download here https://raw.githubusercontent.com/wangshuoleon/archive/master/VoltammetrySimulator.zip, before you run the simulator, install the Matlab runtime first https://www.mathworks.com/supportfiles/MCR_Runtime/R2012a/MCR_R2012a_win64_installer.exe .
alberto-battistel/DMFA-spectrum-fit
Fitting of impedance spectra directly in the frequency domain.
alberto-battistel/my-analog-discovery-2
alberto-battistel/Matlab-Picoscope
script to aquire from picoscope with Matlab
alberto-battistel/AnExtendedHilbertTransform
An extended Hilbert transform
alberto-battistel/Arch-linux-installation
Sequence of steps to perform to install an Arch Linux distribution with KDE environment on a virtual machine.
alberto-battistel/custom-xfce-panels
a simple guide to use when creating your gtk.css file for
alberto-battistel/DCT-EIT
This algorithm for electrical impedance tomography (EIT) enhances image reconstruction by incorporating structural priors from other morphological imaging methods. Moreover, the algorithm comes with accompanying datasets that can be used to test its efficacy.
alberto-battistel/dfg_proposal_template
A LaTeX template for a basic DFG (Deutsche Forschungsgemeinschaft, German Research Foundation) grant proposal.
alberto-battistel/EIS-beyond-linearity-and-stationarity
alberto-battistel/Electrical-Impedance-Tomography-Enhanced-by-Magnetical-Readings
alberto-battistel/fdtd
A 3D electromagnetic FDTD simulator written in Python with optional GPU support
alberto-battistel/Fenicsx
alberto-battistel/Fenicsx_work_flow
alberto-battistel/frequency-correlated-EIT-reconstruction
alberto-battistel/geany-configuration
How I configure Geany to use with python inside a conda environment.
alberto-battistel/GEMM3D
this program allows not only the simulation of 3D Magnetotelluric responses, circular loop and electromagnetic dipoles using the Vector Finite Elements for both real and complex conductivity as well as the calculation of the sensitivity matrix by the Adjoint States Method.
alberto-battistel/gprMax
gprMax is open source software that simulates electromagnetic wave propagation using the Finite-Difference Time-Domain (FDTD) method for numerical modelling of Ground Penetrating Radar (GPR)
alberto-battistel/HFU
Beamer theme for the Hochschule Furtwangen University
alberto-battistel/inkscapeMadeEasy
Set of python modules that extends Aaron Spike's inkex.py module, adding methods and classes to help the development of new extensions for inkscape.
alberto-battistel/install-fenics-guide-translated
alberto-battistel/Magnetic-EIT-UCL
A set of functions to be used in conjunction with EIDORS software/structures in Matlab to deal with magnetic field measurements combined with EIT.
alberto-battistel/MERIT
Microwave Radar-based Imaging Toolbox (MERIT) is free and open-source software for microwave radar-basaed imaging. Including getting started guides and example data, MERIT is a flexible and extensible framework for developing, testing, running and optimising radar-based imaging algorithms.
alberto-battistel/Pi_series_acceleration
Calculate Pi with series acceleration
alberto-battistel/pyEIT
Python based toolkit for Electrical Impedance Tomography
alberto-battistel/python-qucs
QUCS, (http://qucs.sf.net), is a powerful open-source circuit simulator, python-qucs is a Python package that allows to automate the process of preparing input netlists for several simulations, run them, and export the results.
alberto-battistel/reloadium
Advanced hot reloading for Python
alberto-battistel/SAMD
A MATLAB package for Shape-adaptive mode decomposition method proposed in "Decomposing non-stationary signals with time-varying wave-shape functions" by Marcelo A. Colominas and Hau-Tieng Wu.
alberto-battistel/shenfun
High performance computational platform in Python for the spectral Galerkin method
alberto-battistel/Sympy-cheatsheet
Cheatsheet for Sympy calculations