njit
Here are 29 public repositories matching this topic...
Implementing Hash-Table Lexicon using open-addressing and quadratic probing.
-
Updated
May 16, 2024 - C++
This project was done in association with the Solar-Terrestrial Research Department(CSTR) in the New Jersey Institute of Technology (NJIT) and was purposely crafted to find the phenomenon STEVE.
-
Updated
Oct 2, 2024 - Python
Adapting the Dijkstra's algorithm to find the longest path instead of the shortest
-
Updated
Aug 4, 2024 - Python
This project tries to simulate fluid dynamics, and fluid viscosity.
-
Updated
Jun 20, 2024 - C++
This project aims utilize a graph(a tree) as a form of image value compression by implementing a special kind of data structure where it basically groups repeating variables into a node and ungroups non-repeating values into their own nodes.
-
Updated
Jul 18, 2024 - C
This project serves to display an ordered and balanced heap binary trees in the stdout.
-
Updated
Jun 19, 2024 - Python
The following example is meant to demonstrate how a Deterministic Finite Automata(DFA) algorithm is supposed to guide identify whether a string is an email adress ending with .gov or .gr
-
Updated
Jul 2, 2024 - Python
A website for Theta Chi, Epsilon Psi
-
Updated
Mar 8, 2017 - HTML
This project aims utilize a sparse matrix as form of matrix or image value compression by basically implementing a special kind of data structure where it omits one continuously recurring value ultimately saving space only for "important" variables.
-
Updated
Jul 7, 2024 - C
NJIT publications database
-
Updated
May 12, 2017 - PHP
This project showcases 4 examples of queuing: Single Queue, Round Robin, Shortest Queue, Random Queue, that would try to process as many persons as possible.
-
Updated
Jun 25, 2024 - Python
This project intends to closer understand how to compress data using Huffman Coding and delve into a couple of programming examples.
-
Updated
Aug 3, 2024 - Python
HackNJIT 2017 Project - Find food easily on campus.
-
Updated
Dec 1, 2019 - JavaScript
This is a simulation of fire spread using PyGame. Users can create unique environments by drawing on roads, rivers, housing, and grass. This allows for communities to understand vulnerabilities in their fire safety. This project was created in 24 hours at TriValleyHacks with Emilio Lim, Arhum Khan, and Sunny Jayaram.
-
Updated
Oct 16, 2023 - Python
Improve this page
Add a description, image, and links to the njit topic page so that developers can more easily learn about it.
Add this topic to your repo
To associate your repository with the njit topic, visit your repo's landing page and select "manage topics."