Pinned Repositories
Bitcoin-Trust-Network
Here we do analysis of a Bitcoin Trust Network using graph theory and dynamic mode decomposition.
Black-Scholes-GUI
Here is an app to change parameters of the black-scholes equation and visualize the solution using plotly and dash.
BlackScholesFiniteDifference
We can use finite difference schemes to solve the Black Scholes equation estimating the fair value of an option.
DMD_Crypto_Writeup
HurstExponentNotebooks
Here is a collection of Jupyter Notebooks detailing an exploration of the Hurst parameter
LotkaVolterraFoodWebs
We can model complex predator-prey dynamics through systems of differential equations. These sometime exhibit chaotic behavior.
Sea-Life-Machine-Learning
Here I collect images using a webscrapper. I then clean, homogenize, and label the data. I then train a machine using Tensorflow to identify particular sea creatures.
Thesis
Files pertinent to SDSU Master Thesis. Advised by Professor Chris Curtis
website
WVD-Bird_Calls
We use the Wigner-Ville Distribution to generate time-frequency representations of different bird species.
RCSimpson's Repositories
RCSimpson/LotkaVolterraFoodWebs
We can model complex predator-prey dynamics through systems of differential equations. These sometime exhibit chaotic behavior.
RCSimpson/HurstExponentNotebooks
Here is a collection of Jupyter Notebooks detailing an exploration of the Hurst parameter
RCSimpson/BlackScholesFiniteDifference
We can use finite difference schemes to solve the Black Scholes equation estimating the fair value of an option.
RCSimpson/WVD-Bird_Calls
We use the Wigner-Ville Distribution to generate time-frequency representations of different bird species.
RCSimpson/Bitcoin-Trust-Network
Here we do analysis of a Bitcoin Trust Network using graph theory and dynamic mode decomposition.
RCSimpson/Black-Scholes-GUI
Here is an app to change parameters of the black-scholes equation and visualize the solution using plotly and dash.
RCSimpson/DMD_Crypto_Writeup
RCSimpson/Sea-Life-Machine-Learning
Here I collect images using a webscrapper. I then clean, homogenize, and label the data. I then train a machine using Tensorflow to identify particular sea creatures.
RCSimpson/Thesis
Files pertinent to SDSU Master Thesis. Advised by Professor Chris Curtis
RCSimpson/website