Probabilistic Methods and Statistics 420-IS1-2PST-ENG
Course profile: General Academic
Form of study: Full-time studies
Course type: Obligatory
Field of science: natural sciences,
Discipline of science: computer and information sciences
Year/semester of study: year 2/semester 4
Prerequisites (sequential system of courses and exams): Mathematical Analysis 2, Mathematical Analysis 3, Linear Algebra with Analytic Geometry
Lecture: 30 hours, Exercises classes: 30 hours, Laboratory classes: 15 hours,
Teaching methods: lectures, exercises, laboratory exercises, consultations, literature study, homework, discussions in problem groups.
ECTS credits: 5
Balance of student workload:
Class attendance:
- lecture 30 hours
- exercises classes 30 hours
- laboratory classes 15 hours
Course preparation:
- lecture 5 hours
- exercises 5 hours
- laboratory classes 5 hours
Literature study: 5 hours
Reports, homeworks: 10 hours
Preparation for the test: 15 hours.
Preparation for tests, the exams: 8 hours
Exam duration: 4 hours
Individual consultation with the teacher: 2 hours
Student workload:
- student workload related to the activities requiring the teacher's direct participation: 81h, 3 ECTS
- student workload that does not require the teacher's direct participation: 53h, 2 ECTS
Rodzaj przedmiotu
Wymagania (lista przedmiotów)
Koordynatorzy przedmiotu
Efekty kształcenia
1. The student knows the basic concepts, definitions and theorems in the theory of probability - KA6_WG2.
2. The student knows the basic concepts of mathematical statistics and methods of statistical inference - KA6_WG2.
3. The student uses the concept of probabilistic space; is able to build and analyze a mathematical model of a random experiment - KA6_UW3.
4. The student can give various examples of discrete and continuous probability distributions and discuss selected random experiments and mathematical models in which these distributions occur. Knows the practical applications of basic distributions - KA6_UW3.
5. The student can use the formula for the total probability and Bayes' formula - KA6_UW3.
6. The student can determine the parameters of the distribution (discrete and continuous); can use limit theorems and laws of large numbers to estimate probabilities - KA6_UW3.
7. The student can use statistical characteristics of the population and their sample equivalents - KA6_UW3.
8. The student can make simple statistical inferences, also with the use of computer tools - KA6_UW3.
9. The student can use computer programs in the field of data analysis - KA6_UW3.
10. The student knows the limitations of his own knowledge and understands the need for further education - KA6_UU1.
Kryteria oceniania
Final assesment: exam.
Literatura
1. Borovkov A.A., Probability Theory, Springer 2013.
2. Klenke A., Probability Theory. A Comprehensive Course, Springer 2020.
3. Shao J., Mathematical Statistics: Exercises and Solutions, Springer 2005.
4. Shao J., Mathematical Statistics, Springer Texts in Statistics, Springer 2003.
Więcej informacji
Dodatkowe informacje (np. o kalendarzu rejestracji, prowadzących zajęcia, lokalizacji i terminach zajęć) mogą być dostępne w serwisie USOSweb: