CS 361

CS 361 - Prob & Stat for Computer Sci

Spring 2021

Title	Rubric	Section	CRN	Type	Hours	Times	Days	Instructor
Prob & Stat for Computer Sci	CS361	ADA	65086	OD	0	0900 - 0950	W	Weikai Xu
Prob & Stat for Computer Sci	CS361	ADB	65087	OD	0	1001 - 1050	W	Weikai Xu
Prob & Stat for Computer Sci	CS361	ADC	65083	OD	0	1100 - 1150	W	Sneha R Krishna Kumaran
Prob & Stat for Computer Sci	CS361	ADD	65084	OD	0	1200 - 1250	W	Sneha R Krishna Kumaran
Prob & Stat for Computer Sci	CS361	ADE	65085	OD	0	1300 - 1350	W	Aditya Karan
Prob & Stat for Computer Sci	CS361	ADF	68207	OD	0	1400 - 1450	W	Aditya Karan
Prob & Stat for Computer Sci	CS361	ADG	70266	OD	0	1500 - 1550	W	Yiren Wang
Prob & Stat for Computer Sci	CS361	ADH	70268	OD	0	1600 - 1650	W	Yiren Wang
Prob & Stat for Computer Sci	CS361	AL1	65082	OLC	3	1100 - 1215	T R	Hongye Liu
Prob & Stat for Computer Sci	STAT361	ADA	65114	OD	0	0900 - 0950	W	Weikai Xu
Prob & Stat for Computer Sci	STAT361	ADB	65115	OD	0	1001 - 1050	W	Weikai Xu
Prob & Stat for Computer Sci	STAT361	ADC	65111	OD	0	1100 - 1150	W	Sneha R Krishna Kumaran
Prob & Stat for Computer Sci	STAT361	ADD	65112	OD	0	1200 - 1250	W	Sneha R Krishna Kumaran
Prob & Stat for Computer Sci	STAT361	ADE	65113	OD	0	1300 - 1350	W	Aditya Karan
Prob & Stat for Computer Sci	STAT361	ADF	70265	OD	0	1400 - 1450	W	Aditya Karan
Prob & Stat for Computer Sci	STAT361	ADG	70267	OD	0	1500 - 1550	W	Yiren Wang
Prob & Stat for Computer Sci	STAT361	ADH	70269	OD	0	1600 - 1650	W	Yiren Wang
Prob & Stat for Computer Sci	STAT361	AL1	65110	OLC	3	1100 - 1215	T R	Hongye Liu

See full schedule from Course Explorer

Web Page

https://courses.grainger.illinois.edu/cs361/

Official Description

Introduction to probability theory and statistics with applications to computer science. Topics include: visualizing datasets, summarizing data, basic descriptive statistics, conditional probability, independence, Bayes theorem, random variables, joint and conditional distributions, expectation, variance and covariance, central limit theorem. Markov inequality, Chebyshev inequality, law of large numbers, Markov chains, simulation, the PageRank algorithm, populations and sampling, sample mean, standard error, maximum likelihood estimation, Bayes estimation, hypothesis testing, confidence intervals, linear regression, principal component analysis, classification, and decision trees. Course Information: Same as STAT 361. Credit is not given for both CS 361 and ECE 313. Prerequisite: MATH 220 or MATH 221; credit or concurrent registration in one of MATH 225, MATH 415, MATH 416 or ASRM 406. For majors only.

Course Director

Hongye Liu

Text(s)

Forsyth, D. A. "Probability and Statistics for Computer Science," Springer (2018)

Learning Goals

Visualize and summarize data and reason about outliers and relationships (1), (3)

Apply the principles of probability to analyze and simulate random events (1)

Use inference to fit statistical models to data and evaluate how good the fit is (1), (3)

Apply machine learning tools to dimensionality reduction, classification, clustering, regression and hidden Markov model problems (1), (2), (6)

Topic List

visualizing datasets, summarizing data, basic descriptive statistics, conditional probability, independence, Bayes theorem, random variables, joint and conditional distributions, expectation, variance and covariance, central limit theorem. Markov inequality, Chebyshev inequality, law of large numbers, Markov chains, simulation, the PageRank algorithm, populations and sampling, sample mean, standard error, maximum likelihood estimation, Bayes estimation, hypothesis testing, confidence intervals, linear regression, principal component analysis, classification, decision trees, clustering and Markov chains

Last updated

2/7/2019by David Varodayan