Pinned Repositories
Cell-counting
A cell-counting algorithm was created to efficiently count both dead and alive cells from a smartphone taken photo. The algorithm works only if dead cell and alive cells and the background are different range of colors. This algorithm works great with counting 90% for all alive cells. But only calculate 75% of the dead cells due to lighter dead cells blending with the background color.
networkSci_LightningNetwork
The bitcoin lightning network was proposed in 2015 by Joseph Poon and Thaddeus Dryja as a potential solution to the bitcoin scalability problem that arises due to the limited transaction capacity of the bitcoin blockchain1 . It is often argued that the lightning network can be completely distributed; however, the network displays typical tendencies of a decentralized network due to the presence of banking hubs2 . The goal of this project was to analyze the bitcoin lightning network data in order to determine if these banking hubs do in fact exist in the network. To achieve this goal, the data was processed using a range of methods, the most significant being Microsoft Excel, the R programming language, and different R methods available through a variety of packages.
ROGFOE
COSC 304 Web Project
BookCitationGenerator
Sotware Engineering Project for COSC 310 course at UBC-O, term 2 in 2016/17.
california_crime_data_project
estateably-coding-challenge
evernote-clone
eye-tracking-project
oceditor
SoftwareEngineeringCourse
Sotware Engineering Project for COSC 310 course at UBC-O, term 2 in 2016/17.
juliuswuwu's Repositories
juliuswuwu/Cell-counting
A cell-counting algorithm was created to efficiently count both dead and alive cells from a smartphone taken photo. The algorithm works only if dead cell and alive cells and the background are different range of colors. This algorithm works great with counting 90% for all alive cells. But only calculate 75% of the dead cells due to lighter dead cells blending with the background color.
juliuswuwu/networkSci_LightningNetwork
The bitcoin lightning network was proposed in 2015 by Joseph Poon and Thaddeus Dryja as a potential solution to the bitcoin scalability problem that arises due to the limited transaction capacity of the bitcoin blockchain1 . It is often argued that the lightning network can be completely distributed; however, the network displays typical tendencies of a decentralized network due to the presence of banking hubs2 . The goal of this project was to analyze the bitcoin lightning network data in order to determine if these banking hubs do in fact exist in the network. To achieve this goal, the data was processed using a range of methods, the most significant being Microsoft Excel, the R programming language, and different R methods available through a variety of packages.
juliuswuwu/ROGFOE
COSC 304 Web Project
juliuswuwu/BookCitationGenerator
Sotware Engineering Project for COSC 310 course at UBC-O, term 2 in 2016/17.
juliuswuwu/california_crime_data_project
juliuswuwu/estateably-coding-challenge
juliuswuwu/evernote-clone
juliuswuwu/eye-tracking-project
juliuswuwu/oceditor
juliuswuwu/SoftwareEngineeringCourse
Sotware Engineering Project for COSC 310 course at UBC-O, term 2 in 2016/17.
juliuswuwu/TerraMortuum
Single player first-person shooter for Android mobile devices
juliuswuwu/TheEye
COSC 445 Project
juliuswuwu/Unique-Cover-Letter-Helper
Generates a template