Note: You must establish a session for Fall Academic Term 2003 on wolverineaccess.umich.edu in order to use the link "Check Times, Location, and Availability". Once your session is established, the links will function.
This page was created at 7:00 PM on Tue, Sep 23, 2003.
STATS 100. Introduction to Statistical Reasoning.
Midterm Exam on Thursday, Oct. 23, 67:30.
Prerequisites & Distribution: (4). (MSA). (BS). (QR/1). May not be repeated for credit. No credit granted to those who have completed or are enrolled in SOC 210, STATS 265, 350, 400, 405, or 412, IOE 265, or ECON 404 or 405.
Credits: (4).
Course Homepage: http://www.stat.lsa.umich.edu/~silvestr/stat100/
This course will provide an overview of the field of Statistics. It will expose students to statistical reasoning and concepts for dealing with uncertainty, visualizing and analyzing data, and drawing conclusions from experimental or observational data. Emphasis is on presenting underlying concepts rather than covering a variety of different methodologies. Course evaluation is based on a combination of inclass quizzes, weekly homework, a Thursday evening midterm examination, a final examination, and GSI input. The course format includes lectures and a discussion section (1 hour per week).
Homework:
There will be weekly homework assignments, available each Monday on the web, which will be
collected and graded. Problems assigned (and their corresponding solutions) will be posted on the web
for viewing and printing.
There will be four inclass quizzes during the academic term.
Textbook:
Interactive Statistics
Second Edition
Aliaga/Gunderson
PrenticeHall
Student Solutions Manual (optional)
TI83 Calculator — *Required.*
STATS 265 / IOE 265. Probability and Statistics for Engineers.
Instructor(s):
Prerequisites & Distribution: MATH 116 and ENGR 101. (4). (Excl). (BS). May not be repeated for credit. No credit granted to those who have completed or are enrolled in STATS 311, 400, 405, or 412, or ECON 405. CAEN lab access fee required for nonEngineering students.
Credits: (4).
Lab Fee: CAEN lab access fee required for nonEngineering students.
Course Homepage: http://coursetools.ummu.umich.edu/2003/fall/ioe/265/001.nsf
Engineering is divided into two worlds: deterministic and probabilistic. Your math, physics, and chemistry course preparation to date has
concentrated on "deterministic" models: a given set of inputs or conditions repeatedly produce a fixed, completely predictable output. IOE 265
launches your modeling skills into a totally new dimension ... the much more realistic situation wherein a given set of inputs or conditions
produce random (or "chance" or "probabilistic" or "stochastic" ) outcomes! Examples include the characteristics of products leaving
manufacturing lines (e.g., lifetime of a bulb, concentration of a therapeutic drug), results of laboratory experiments (e.g., growth rates of
microorganisms) or processes observed over space or time (e.g., spatial distribution of soil contaminants or time series of rainfall amounts). The
field of statistics deals with the collection, presentation, analysis and use of data to make decisions, solve problems and design products and
processes.
The first part of the class will be devoted to the presentation of probabilistic concepts which are the building blocks of all statistical procedures
that will be introduced in the second (more applied) part of the class. Homeworks and labs will allow students to apply these concepts and learn
how to use basic statistical Excel functions to solve problems.
The course prerequisites are MATH 116 and Engin 101. IOE 265 is a prerequisite for many undergraduate IOE courses (e.g., IOE 316, 366, 421, 425, 432, 441, 447, 449, 452, 460, 463, 465, 466, 474, 424/491).
Applied Statistics and Probability for Engineers by Douglas C. Montgomery and George C. Runger, Second Edition, 1998. Chapters 1 to 9
will be covered in this course.
Grading scheme:
 Homeworks: 30% Homeworks will typically be assigned on a Wednesday and are due on Friday the next week, see schedule below. A dropping time and place will
be specified later. Solutions to homework problems will be posted on this Website and CAEN Website the day after the due date, hence late
homeworks will receive no credit. According to the Engineering Honor Code, all homework assignments are to be completed on your known, without using solutions prepared in prior years. Two lab sessions will be devoted to Technical communication and the related assignment will be
graded and counted as homework #11.
 2 midterm Exams: 40%
 Final Exam: 30% All exams will be closedbook and will consist of a set of multiple choice questions and problems covering both theory and applications. For
each midterm, you may use, however, 1 crib sheet (two sides) including all information that you think may be helpful in the examination.
The final exam will be comprehensive and 3 doublesided crib sheets will be permitted.
Course outline:
 Data Summary and Presentation
 Concepts of sample and population
 Type of data
 Descriptive statistics
 Data summary and display
 Probabilistic Concepts
 Sample spaces and events
 Axioms of probability
 Conditional probability and independence
 Random variables: discrete and continuous
 Probability Distributions
 Probability mass(density) functions and cumulative distribution functions
 Mean and variance of a random variable (RV)
 Examples of probability distributions
 Discrete RV: uniform, binomial, (hyper)geometric, Poisson
 Continuous RV: Normal, exponential, Gamma, Weibull
 Joint probability distributions
 Parameter Estimation
 Properties of estimators
 Estimation methods
 Sampling distributions & confidence intervals
 Statistical inference
 Hypothesis testing
 Inference on the mean and variance
 Inference on a population proportion
 Goodness of Fit
 Inference for two samples
STATS 350. Introduction to Statistics and Data Analysis.
Evening Exam on Thursday, Oct 9 and Thursday, Nov. 20, 67:30
Prerequisites & Distribution: (4). (NS). (BS). (QR/1). May not be repeated for credit. No credit granted to those who have completed or are enrolled in ECON 404 or 405, or IOE 265 or STATS 265, 400, 405, or 412.
Credits: (4).
Course Homepage: http://www.stat.lsa.umich.edu/~bkg/stat350/
In this course, students are introduced to the concepts and applications of statistical methods and data analysis. STATS 350 has no prerequisite and has been elected by students whose mathematics background includes only high school algebra. Examples of applications are drawn from virtually all academic areas and some attention is given to statistical process control methods. The course format includes lectures (3 hours per week) and a laboratory (1.5 hours per week). The laboratory section deals with the computational aspects of the course and provides a forum for review of lecture material. For this purpose, students are introduced to the use of a statistical analysiscomputer package. Course evaluation is based on a combination of two examinations, a final examination, weekly homework, and lab participation.
Textbook:
Mind on Statistics
Utts/Heckard
Duxbury
(Packet includes Text/Yellow Formula Card/SPSS 11.0 CDRom)
Workbook
Lecture Notes (Sections 3,4,6)
CoursePak (Sections 1,2,5)
STATS 400. Applied Statistical Methods.
Instructor(s):
Bendek B Hansen
Prerequisites & Distribution: High School Algebra. (4). (Excl). (BS). (QR/1). May not be repeated for credit. No credit granted to those who have completed or are enrolled in ECON 404 or 405, or STATS 250, 265, 350, 405, or 412.
Credits: (4).
Course Homepage: http://coursetools.ummu.umich.edu/2003/fall/stats/400/001.nsf
Statistics and the scientific method; observational study versus designed experiment;
visualization; introduction to probability; statistical inference; confidence intervals; onesample tests of hypothesis; twosample problems; analysis of variance (ANOVA); blocked designs; tests for association and independence (chisquare tests); regression and correlation; and nonparametric tests. Course format includes lectures (3 hours per week) and a laboratory (1.5 hours per week).
STATS 401(403). Applied Statistical Methods II.
Prerequisites & Distribution: MATH 115, and STATS 350 or 400. (4). (Excl). (BS). May not be repeated for credit. No credit granted to those who have completed or are enrolled in STATS 413.
Credits: (4).
Course Homepage: No homepage submitted.
An intermediate course in applied statistics, covering a range of topics in modeling and analysis of data including: review of simple linear regression, twosample problems, oneway analysis of variance; multiple linear regression, diagnostics and model selection; twoway analysis of variance, multiple comparisons, and other selected topics.
STATS 405 / ECON 405. Introduction to Statistics.
Section 001.
Instructor(s):
Prerequisites & Distribution: MATH 116. Juniors and seniors may elect this course concurrently with ECON 101 or 102. (4). (Excl). (BS). (QR/1). May not be repeated for credit. No credit granted to those who have completed or are enrolled in IOE 265, STATS 265, 400 or 412. Students with credit for ECON 404 can only elect STATS 405 for 2 credits and must have permission of instructor.
Credits: (4).
Course Homepage: No homepage submitted.
See Economics 405.001.
STATS 406. Introduction to Statistical Computing.
Prerequisites & Distribution: One of STATS 401, 412, or 425. (4). (Excl). (BS). May not be repeated for credit.
Credits: (4).
Course Homepage: http://www.stat.lsa.umich.edu/~kshedden/Courses/Stat406/index.html
Acquaints students with selected topics in statistical computing, including basic numerical aspects, iterative statistical methods, principles of graphical analyses, simulation and Monte Carlo methods, generation of random variables, stochastic modeling, importance sampling, and numerical and Monte Carlo integration. Three hours of lecture and 1.5 hour laboratory session each week.
STATS 412. Introduction to Probability and Statistics.
Section 001.
Prerequisites & Distribution: Prior or concurrent enrollment in MATH 215 and EECS 183. (3). (Excl). (BS). May not be repeated for credit. No credit granted to those who have completed or are enrolled in ECON 405, STATS 265, 400, or 405, or IOE 265. One credit granted to those who have completed or are enrolled in STATS 350.
Credits: (3).
Course Homepage: No homepage submitted.
An introduction to probability theory; statistical models, especially sampling models; estimation and confidence intervals; testing statistical hypotheses; and important applications, including the analysis of variance and regression.
STATS 425 / MATH 425. Introduction to Probability.
Instructor(s):
Statistic faculty
Prerequisites & Distribution: MATH 215, 255, or 285. (3). (Excl). (BS). May not be repeated for credit.
Credits: (3).
Course Homepage: No homepage submitted.
Basic concepts of probability; expectation, variance, covariance; distribution functions; and bivariate, marginal, and conditional distributions.
STATS 425 / MATH 425. Introduction to Probability.
Instructor(s):
Mathematics faculty
Prerequisites & Distribution: MATH 215, 255, or 285. (3). (Excl). (BS). May not be repeated for credit.
Credits: (3).
Course Homepage: No homepage submitted.
See Mathematics 425.
STATS 425 / MATH 425. Introduction to Probability.
Section 001.
Instructor(s):
Prerequisites & Distribution: MATH 215, 255, or 285. (3). (Excl). (BS). May not be repeated for credit.
Credits: (3).
Course Homepage: No homepage submitted.
See Mathematics 425.001.
STATS 425 / MATH 425. Introduction to Probability.
Section 003.
Prerequisites & Distribution: MATH 215, 255, or 285. (3). (Excl). (BS). May not be repeated for credit.
Credits: (3).
Course Homepage: No homepage submitted.
Basic concepts of probability; expectation, variance, covariance; distribution functions; and bivariate, marginal, and conditional distributions.
STATS 425 / MATH 425. Introduction to Probability.
Section 007.
Prerequisites & Distribution: MATH 215, 255, or 285. (3). (Excl). (BS). May not be repeated for credit.
Credits: (3).
Course Homepage: http://www.math.lsa.umich.edu/~daschnei/math425/Math425HomePage.htm
See Mathematics 425.007.
STATS 425 / MATH 425. Introduction to Probability.
Section 008.
Instructor(s):
Kausch
Prerequisites & Distribution: MATH 215, 255, or 285. (3). (Excl). (BS). May not be repeated for credit.
Credits: (3).
Course Homepage: http://coursetools.ummu.umich.edu/2003/fall/math/425/008.nsf
See Mathematics 425.008.
STATS 426. Introduction to Theoretical Statistics.
Section 001.
Prerequisites & Distribution: STATS 425. (3). (Excl). (BS). May not be repeated for credit.
Credits: (3).
Course Homepage: No homepage submitted.
This course covers the basic ideas of statistical inference, including sampling distributions, estimation, confidence intervals, hypothesis testing, regression, analysis of variance, nonparametric testing, and Bayesian inference. The sequence of STATS 425/426 serves as a prerequisite for more advanced Statistics courses. Regular homework and a final exam.
Topic covered include:
 Random Variables
 Joint Distributions
 Induced Distributions
 Expectation
 The Law of Large Numbers
 The Central Limit Theorem
 Simulation
 Populations and Samples
 The Chisquared, t, and F Distributions
 Estimation: The Method of Moments
 Maximum Likelihood Estimation

 Bias, Variance, and MSE
 The Cramer Rao Inequality
 Exponential Families and Sufficiency
 Confidence Intervals
 Approximate Confidence Intervals
 The Bootstrap
 Asymptotics of the MLE
 Tests and Confidence Intervals
 Neyman Pearson
 Likelihood Ratio Tests
 ChiSquared Tests

 Goodness of Fit Tests
 The Sample Distribution Function
 Decision Analysis
 Bayesian Inference
 The Two Sample Problem
 More on the Two Sample Problem
 Rank Tests
 One Way ANOVA
 Simultaneous Confidence
 Two Way ANOVA
 Categorical Data
 Simple Linear Regression
 Multiple Regression

STATS 466 / IOE 466 / MFG 466. Statistical Quality Control.
Instructor(s):
Prerequisites & Distribution: STATS 265 and 401 or IOE 366. (4). (Excl). (BS). May not be repeated for credit. CAEN lab access fee required for nonEngineering students.
Credits: (4).
Lab Fee: CAEN lab access fee required for nonEngineering students.
Course Homepage: No homepage submitted.
Quality improvement philosophies; Modeling process quality, statistical process control, control charts for variables and attributes, CUSUM and EWMA, short production runs, multivariate quality control, auto correlation, engineering process control economic design of charts, fill control, precontrol, adaptive schemes, process capability, specifications and tolerances, gage capability studies, acceptance sampling by attributes and variables, international quality standards.
STATS 466 / IOE 466 / MFG 466. Statistical Quality Control.
Section 881.
Instructor(s):
Jianjun Shi
Prerequisites & Distribution: STATS 265 and 401 or IOE 366. (4). (Excl). (BS). May not be repeated for credit. CAEN lab access fee required for nonEngineering students.
Credits: (4).
Lab Fee: CAEN lab access fee required for nonEngineering students.
Course Homepage: No homepage submitted.
No Description Provided. Contact the Department.
STATS 470. Introduction to the Design of Experiments.
Instructor(s):
Prerequisites & Distribution: STATS 401. (4). (Excl). (BS). May not be repeated for credit.
Credits: (4).
Course Homepage: No homepage submitted.
This course will introduce students to basic principles in classical experimental design, including randomization, replication, confounding, interaction, covariates, and use of the general linear model. Students will be introduced to the following designs: completely randomized, randomized blocks, Latin squares, incomplete blocks, factorial, split plot, Taguchi, response surface, and optimal. There will be regular assignments and a final exam. Class format is 3 hours of lecture and 1.5 hours of laboratory per week.
STATS 480. Survey Sampling Techniques.
Section 001.
Prerequisites & Distribution: STATS 401. (4). (Excl). (BS). May not be repeated for credit.
Credits: (4).
Course Homepage: http://coursetools.ummu.umich.edu/2003/fall/stats/480/001.nsf
Introduces students to basic ideas in survey sampling, moving from motivating examples to abstraction to populations, variables, parameters, samples and sample design, statistics, sampling distributions, HorvitzThompson estimators, basic sample design (simple random, cluster, systematic, multiple stage), various errors and biases, special topics.
STATS 499. Honors Seminar.
Instructor(s):
Prerequisites & Distribution: Permission of departmental Honors advisor. (23). (Excl). (INDEPENDENT). May not be repeated for credit.
Credits: (23).
Course Homepage: No homepage submitted.
Advanced topics, reading and/or research in applied or theoretical statistics.
STATS 500. Applied Statistics I.
Section 001.
Instructor(s):
Ji Zhu
Prerequisites & Distribution: MATH 417, and STATS 350 or 426. (3). (Excl). (BS). May not be repeated for credit.
Credits: (3).
Course Homepage: http://wwwpersonal.umich.edu/~jizhu/Teaching/Stat500/
Linear Models: definition, fitting, GaussMarkov theorem, inference, interpretation of results, meaning of regression coefficients, identifiability, diagnostics, influential
observations, multicollinearity, lack of fit, robust procedures, transformations, regression splines, variable selection, ridge regression, principal components regression, ANOVA
and analysis of covariance. The objective is to learn what methods are available and more importantly, when they should be applied.
Textbook:
Linear Models with R by Julian J. Faraway.
Computing:
The software we will be using for the course is R. R is free with Windows and Unix versions.
Prerequisites:
Knowledge of matrix algebra. Knowledge of basic probability and mathematical statistics (at the level of STATS 425/426).
Assessment:
There will be weekly homeworks, one midterm and one final. The weights are 30% for the homework, 30% for the midterm and 40% for the final. No late homework will be
accepted. No makeup exam.
STATS 500. Applied Statistics I.
Section 002.
Prerequisites & Distribution: MATH 417, and STATS 350 or 426. (3). (Excl). (BS). May not be repeated for credit.
Credits: (3).
Course Homepage: http://www.stat.lsa.umich.edu/~faraway/stat500/
Linear Models: Definition, fitting, inference, interpretation of
results, meaning of regression coefficients, identifiability, lack of
fit, multicollinearity, ridge regression, principal components
regression, partial least squares, regression splines, GaussMarkov
theorem, variable selection, diagnostics, transformations, influential
observations, robust procedures, ANOVA and analysis of covariance, Randomised block, and factorial designs.
Computing:
The software I will be using for the course is R. R is very similar
to S+, the software I have used for this course in the past. R is
free with Windows and Unix versions. You can download your own copy
and use it wherever you find convenient.
STATS 504. Statistical Consulting.
Section 001.
Prerequisites & Distribution: STATS 401 or 500. (3). (Excl). (BS). May be repeated for credit for a maximum of 9 credits.
Credits: (3).
Course Homepage: No homepage submitted.
Applications of statistics to problems in engineering, physical sciences, and social sciences; students will be expected to analyze data and write reports.
STATS 505 / ECON 671. Econometric Analysis I.
Section 001.
Prerequisites & Distribution: Permission of instructor. (3). (Excl). (BS). May not be repeated for credit.
Credits: (3).
Course Homepage: No homepage submitted.
This course is designed for firstyear graduate students in economics, business, and related subjects. It involves a fairly rigorous development of statistical reasoning and methods relating to hypothesis testing, estimation, and regression analysis. Students are supposed to have had a course in calculus and in introductory statistics. Knowledge of matrix algebra is required. Evaluation of students is based on midterm and final examinations and weekly assignments. Students taking this course are expected to take Economics 674 — Econometric Analysis II in the following term.
STATS 525 / MATH 525. Probability Theory.
Section 001.
Instructor(s):
Charles R Doering
Prerequisites & Distribution: MATH 451 (strongly recommended) or 450. STATS 425 would be helpful. (3). (Excl). (BS). May not be repeated for credit.
Credits: (3).
Course Homepage: No homepage submitted.
See Mathematics 525.001.
This page was created at 7:00 PM on Tue, Sep 23, 2003.
University of Michigan  College of LS&A  Student Academic Affairs  LS&A Bulletin Index  Department Homepage
This page maintained by LS&A Advising Technology (webmaster_saa@umich.edu), G255E Angell Hall
Copyright © 2003 The Regents of the University of Michigan,
Ann Arbor, MI 48109 USA +1 734 7641817
Trademarks of the University of Michigan may not be electronically or otherwise altered or separated from this document or used for any nonUniversity purpose.
