Name: Alex Liberzon
Type: User
Company: Tel Aviv University
Bio: Experimental fluid mechanics researcher trained as a mechanical engineer, who believes in open source and open science
Twitter: alexlib
Location: Tel Aviv, Israel
Blog: https://lnkd.in/gVznF6H
Alex Liberzon's Projects
A collection of docker recipes
ArchAssault, BlackArch, LXDE, VNC
A minimal docker baseimage to ease creation of X graphical application containers
Collection of Docker images with headless VNC environments
Docker image to provide HTML5 VNC interface to access Ubuntu LXDE and LXQT desktop environment
OpenPTV in a Docker container, www.openptv.net
https://github.com/royekorolik/double-pendulum
Particle detection by means of neural networks and synthetic training data refinement in DPTV
A MATLAB code which reads numbers in a video, references, and calculates drop dynamics' characteristics
DTW (Dynamic Time Warping) python module
Jupyter notebooks for Dynamics and Control
Event-based image velocimetry - retrieve velocity maps from event-based camera recordings of fluid flows containing particles
Course materials from Environmental Fluid Dynamics
Enable: low-level drawing and interaction
A sophomore course in engineering computation
Mechanical engineering equations sheets
Jupyter Notebook (Python) snippets for the Instrumentation and Measurements course
Python package for state and parameter estimation
A Binder-compatibible repo with a Dockerfile
A Binder-compatible repo with a requirements.txt file
dynamical analysis for experimental trajectories
Within Formula One, data gathered from Computational Fluid Dynamics (CFD) does not always correspond to the telemetry collected on the racetrack, this document explores the current state of the art and applies vortex extraction and visualisation techniques to a time-dependent data set to allow for a meaningful interpretation of data.
Draft of the fastai book
Tutorial for creating Python/Qt GUIs with fbs
Fast Checkerboard Demodulation (FCD) for Synthetic Schlieren imaging
Deep learning approach to detecting fidcual markers on a calibration board