Implemented a covert timing channel by which the source principal conveys information to the destination principal by using mechanisms in ways not intended for performing communications.
Analyzed the performance in the metrics of raw channel bandwidth and channel fidelity rate.
We have two trucks. One of them drives back and forth to the butter and egg farm, and the other drives to the flour and sugar farm. Each farm produces unlimited supplies except for the eggs.
On arrival, each truck loads up with a full load of produce (see below), then takes it to Anne’s Patisserie, where there are four conveyor belts, one for each kind of produce. The truck unloads onto belts and when it is fully unloaded, can go fetch more produce.
A full load of produce “fills a truck”. This will be three of each: three crates of eggs (a total of 9 eggs), three boxes of butter, three bags of flour, three bags of sugar.
From time to time the farmer comes and collects the eggs. This empties the nests. The farmer also milk the cow now and then.
Need to coordinate farmer and animals to harvest efficiently.
Coordinate children and shop to keep supply/demand in balance.
Enforce tons of synchronization conditions to avoid objects crash/lost products.
Though the UI is plain, I enjoyed coding this game. It was popular in my middle school and I never thought I could create one myself.
Task: Analyze how various factors such as natural events
and governmental initiatives have influenced the quality of
water throughout time. We were given datasets of the
chemicals, droughts, water usage and industry occupational.
Strategy: utilize clustering and regression and make various
data visualization to present findings.
Testing: by case study. Please check out our report
for more. However, we cannot share the data due to integrity reasons.
Implemented a Machine Learning Algorithm to determine whether a
Tweet is sent from the President Trump or other ones.
Check this Contest Page for more.
