fsgyxnyyyy's Stars
ungarj/label_centerlines
python tool to extract smoothed centerlines from polygons
fitodic/centerline
Calculate the polygon's centerline
ldominguezruben/meanderstatisticstoolbox
Meander Statistics Toolbox (MStaT), is a packaging of codes developed on MATLAB, which allows the quantification of parameters dexscriptors of meandering channels (sinuosity, arc-wavelength, amplitude, curvature, inflection point, among other).
canlab/MediationToolbox
Single-level and multi-level mediation analyses for any kind of data, with bootstrap-based significance testing. Neuroimaging-oriented functions allow for mediation effect parametric mapping (mapping of mediation effects across the brain) and multivariate mediation.
tancredorocha/MATLAB-Robotics
(Apologies for lack of comments)This repository has my collection of MATLA functions to help with mathematical analysis. Include function for rotation and Translation transforms, Euler, Roll-Pitch-Yaw, Axis Angle, (inverse for each), Path Planning, Forward Kinematics, and Jacobians
vdb5699/Adaptive-and-curved-layer-slicing
ERPLibre/erplibre-3D-printing-addons
ERPLibre/Odoo 3D printing addons
kmeshx/markerlessmotioncapture
Viewing and performing chain calibration of cameras from pairwise calibration, utilizing MATLAB libraries to get camera coordinates, 3D Medial Axis Transformation, Non-rigid foreground extraction, structuring storage of frame-by-frame info of cheetah, forming and testing different optimization functions for 2D skeletal fitting, exploring deep learning and NRSFM techniques
ChristophSchranz/Pre-Print-Service
This service supports your 3D printing workflow by utilizing auto-rotation and slicing functionality.
revarbat/mandoline-py
A 3D printing STL-to-GCode slicer based on the Clipper library.
compas-dev/compas_slicer
Slicing package for FDM 3D Printing with COMPAS.
wtzzclk/FDM_3D_Printing_Slice_Algorithm
A matlab project of "FDM_3D_Printing_Slice_Program"
cock-puncher/TPP_MPIL_CUHK
Two-photon polymerization (TPP) is the most accurate 3d printing process used to create many complex structures for nanoscale applications. Prior to this, the multi-scale precision manufacturing laboratory of the Chinese university of Hong Kong developed a laser nanometer manufacturing process based on TPP and ultra-fast random access digital micromirror device (DMD) scanner. Using binary holography, the DMD scanner can simultaneously generate and individually control one to dozens of laser points for parallel nanoscale manufacturing at 22.7kHz. The nanofabrication system can be used for large-scale nanoscale prototype design and the creation of complex structures, such as suspended structures, which cannot be easily manufactured by conventional raster scanning systems. Based on the design experience of the first generation system in the summer research experience, I cooperate with Tsinghua classmates, designed the compatible galvanometer scanning and DMD scanning two modes of the second generation of 3d printers, has independently developed the model of cutting layer, contour scanning, automatic pump shell, grid, filling features such as a complete software system, can express 3 d model based on STL file, automatic slicing, trajectory planning, mining point and all hardware signal generated by the process. In order to test the working ability of the system, we built a dual galvanometer scanning and real-time monitoring system using ordinary laser pointer light source to simulate the 3D printing process and observe the moving track and speed of the light spot.