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Probability and Statistics

Code: M2016     Acronym: M2016     Level: 200

Keywords
Classification Keyword
OFICIAL Mathematics

Instance: 2017/2018 - 1S Ícone do Moodle

Active? Yes
Responsible unit: Department of Mathematics
Course/CS Responsible: Bachelor in Computer Science

Cycles of Study/Courses

Acronym No. of Students Study Plan Curricular Years Credits UCN Credits ECTS Contact hours Total Time
L:CC 63 Plano de estudos a partir de 2014 2 - 6 56 162
MI:ERS 84 Plano Oficial desde ano letivo 2014 2 - 6 56 162

Teaching language

Portuguese

Objectives

Introductory course in Probability and Statistics: acquisition of basic concepts and application to real situations.
Particular attention will be paid to the presentation and understanding of the concepts, keeping the mathematical treatment at a median level.

Learning outcomes and competences

On completing this curricular unit, the student is expected to:

  1. understand the concepts involved in a statistical study and be aware of the various problems that arise in each particular study;
  2. correctly identify and apply the learnt techniques from Descritive Statistics, used to summarize data, and to interpret them;
  3. master the the probability concepts and calculus approached in the curricular unit;
  4. be able to characterize random variables/vectors and to identify the correspondent probability distributions;
  5. be able to make simple statistical inferences on basic population parameter,s from point and interval estimation techniques.

Working method

Presencial

Program

1. Probability Theory: fundamental concepts, independence of events and conditional probability, the Bayes’ and the total probability theorems.

2. Univariate random variables: definition, probability (density) function and probability distribution function; expected value and its properties; variance and its properties.
Bivariate random variables; joint distributions; covariance and correlation; independent random variables.  

3. Some probability distributions: discrete distributions (uniform, binomial, multinomial and Poisson) and continuous distributions (uniform, normal, exponential, chi-squared and Student's t). The De Moivre-Laplace and the Central Limit Theorem.

4. Descriptive Statistics: fundamental concepts, types of observations and measurement scales, techniques for data summarization (tables, plots, measures of location and scale), outliers, Pearson's correlation coefficient. 

5. Statistical Inference: random sample, statistic, sample mean and sample proportion. 
Point estimation: properties (bias and consistency). 
Some sample distributions. Interval estimation: computation and interpretation of confidence intervals for some population parameters.




Mandatory literature

Joaquim Costa; Apontamentos
Murteira Bento; Introdução à estatística. ISBN: 972-773-116-3

Complementary Bibliography

Douglas C. Montgomery, George C. Runger; Applied Statistics and Probability for Engineers, John Wiley & Sons, 2003. ISBN: 0-471-20454-4
Pestana Dinis Duarte; Introdução à probabilidade e à estatística. ISBN: 972-31-0954-9
Dagnelie Pierre; Estatística

Teaching methods and learning activities

Theoretical lectures with exposition of the course contents. The lecture notes are previously made available on the web page of the curricular unit. 

Practical classes with solution of exercises by the students and support in clarifying theoretical and/or practical problems by the lecturer.

Software

R

keywords

Physical sciences > Mathematics > Statistics

Evaluation Type

Distributed evaluation with final exam

Assessment Components

designation Weight (%)
Exame 100,00
Total: 100,00

Calculation formula of final grade

Final classification obtained by a distributed assessment:
Final mark = 0.6xT_Max + 0.4xT_Min
where
T_Max = best component rating for each student (0-20)
T_Min = worst component rating for each student (0-20)







The students will be sucessful in the curricular unit once the final grade (obtained either in the tests or in the final examination) is greater than or equal to 9.5.


Students with a score greater than or equal to 17.5 values in the final exam must make a complementary written or oral exam in order to obtain a final score greater than or equal to 18 values.


 

Examinations or Special Assignments

Exams under speacial conditions will consist of a written test or oral test  which can be preceded by an oral eliminatory exam.
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