Probability and Statistics 2 (STA500)
Basic and advanced issues in probability, statistical modeling using stochastic processes, estimation and statistical inference.
Course description for study year 2024-2025. Please note that changes may occur.
Facts
Course code
STA500
Version
1
Credits (ECTS)
10
Semester tution start
Autumn
Number of semesters
1
Exam semester
Autumn
Language of instruction
English
Time table
Content
Basic issues in probability. Presentation of a number of commonly used probability distributions. Short introduction to extreme-value statistic. Estimation, in particular the maximum likelihood method, and confidence intervals in various situations. Brief introduction to Bayesian statistics. Stochastic processes, in particular Poisson processes and Markov processes. Theory and areas for applications of the various methods will be covered. Use of software (R).
Learning outcome
After having completed the course, the student should:
- Be able to use various probability distributions
- Have basic knowledge of extreme value statistics.
- Know about maximum likelihood estimation and have basic knowledge about estimation and confidence intervals
- Have basic knowledge of Bayesian statistics
- Know of common models for stochastic processes.
- Be able to do basic calculations for Poisson processes and Markov processes, including simple queue models.
Required prerequisite knowledge
None
Recommended prerequisites
MAT100 Mathematical Methods 1, MAT200 Mathematical Methods 2, MAT210 Real and Complex Calculus, STA100 Probability and Statistics 1
or equivalent courses.
Exam
| Form of assessment | Weight | Duration | Marks | Aid |
|---|---|---|---|---|
| Written exam | 1/1 | 4 Hours | Letter grades | Approved, basic calculator, One A4 sheet of handwritten notes, |
Permitted aids on the exam are simple approved calculator and one A4-sheet with your own handwritten notes.Written exam is with pen and paper
Coursework requirements
Mandatory submissions
At least 8 out of 12 exercises must be submitted and recieve a pass in order to be eligable to take the exam.
Course teacher(s)
Course coordinator:
Jörn SchulzCourse coordinator:
Jan Terje KvaløyHead of Department:
Bjørn Henrik AuestadMethod of work
4+2 hours of lectures and problem solving per week, self study.
Overlapping courses
| Course | Reduction (SP) |
|---|---|
| Mathematical statistics and stochastic processes A (MOT100_1) | 7 |
| Mathematical statistics and stochastic processes B (MOT110_1) | 4 |
| Mathematical statistics (MOT150_1) | 4 |
| Mathematical Statistics - Petroleum (MOT320_1) | 4 |
| Introduction to Statistics and Probability 2 (MET270_1) | 10 |
| Stochastic modeling (TE6517_1) | 4 |
| Stochastic modeling (TE6517_A) | 4 |
Open for
Admission to Single Courses at the Faculty of Science and Technology
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Industrial Economics - Master of Science Degree Programme, Five Year
Structural and Mechanical Engineering - Master of Science Degree Programme
Structural and Mechanical Engineering - Master of Science Degree Programme. Five Years
Mathematics and Physics - Master of Science Degree Programme
Mathematics and Physics - Five Year Integrated Master's Degree Programme
Industrial Asset Management - Master of Science Degree Programme
Marine and Subsea Technology, Master of Science Degree Programme, Five Years
Marine and Offshore Technology - Master of Science Degree Programme
Petroleum Engineering - Master of Science Degree Programme
Petroleum Engineering - Master of Science Degree Programme, Five Years
Risk Analysis - Master of Science Degree Programme
Exchange programme at Faculty of Science and Technology
Course assessment
There must be an early dialogue between the course supervisor, the student union representative and the students. The purpose is feedback from the students for changes and adjustments in the course for the current semester.In addition, a digital subject evaluation must be carried out at least every three years. Its purpose is to gather the students experiences with the course.