Name: Wisam Reid
Type: User
Bio: (1) PhD Candidate, Harvard Medical School (2023), SHBT
(2) MA, Stanford University (2017), Music, Science, & Technology
(3) BS, UC Berkeley (2014), EECS
Location: Harvard/MIT
Blog: http://wisamreid.com
Wisam Reid's Projects
Computer Tutorial for Complex Networks
Computer tutorial for PHYS3888
Explore the properties of dynamical systems using the Brain Dynamics Toolbox
sample workflow + algorithm for neurofinder
Code and behavioral protocol for freely-moving 2ABT
🕝 Time-warped principal components analysis (twPCA)
Deep Learning Tutorial for Kaggle Ultrasound Nerve Segmentation competition, using Keras
Uniform Manifold Approximation and Projection
Unbiased estimation of synaptic plasticity
unet for image segmentation
U-Net implementation for PyTorch based on https://arxiv.org/abs/1505.04597
Applying UNET Model on TGS Salt Identification Challenge hosted on Kaggle
Peak detection for 1D signals
Code to reproduce the use examples published in SIAM 2022
www.vaa3d.org : download the latest Binary version here https://github.com/Vaa3D/release/releases/tag/v3.200
Test Data for the Vaa3D and related projects
www.vaa3d.org
VAEs based on Riesselman et al 2018 "Deepsequence" both the standard from the paper, but also extended to conditional and semi-supervised variants
The VBA toolbox
Simple python algorithms for segmenting animal (songbird, mice) vocalizations into notes and syllables using Dynamic Thresholding and Continuity Filtering.
Volume Slicing and Editing
Vowpal Wabbit is a machine learning system which pushes the frontier of machine learning with techniques such as online, hashing, allreduce, reductions, learning2search, active, and interactive learning.
This is the VTK Examples Web Site. This is a mirror of the https://gitlab.kitware.com/vtk/vtk-examples repository in order to host web pages. :warning: DO NOT SUBMIT MERGE REQUESTS HERE. :warning:
The Python Package Index
ImageJ/Fiji library and plugin to perform watershed in 3D images
Simple watershed and agglomeration library for affinity graphs.
A Matlab application for electrophysiology data analysis