Computer Science 1 - Review Course
PIB-IREP1
pi2
0
1
no
German
PIB-IREP1
Applied Informatics
1
optional course
Prof. Dr. Klaus Berberich
kbe
Moritz Niederer, M.Sc.
mni
After successfully completing this module, students will be able to formulate and analyze algorithms for solving simple problems. They will understand how numbers and characters are represented in a computer. They will be capable of converting between and computing in the underlying numeral systems. Students will be familiar with the basic concepts and rules of predictive logic and can apply them to determine the equivalence of two expressions. On the basis of the machine model Random Access Machine (RAM), students will learn the basic operations of a computer. They will be able to implement simple programs with the RAM commands, prove their correctness and determine their time and space complexity. Students will become familiar with basic algorithms (e. g. for searching and sorting) and will be able to combine them like building blocks to solve more complex problems. Based on these fundamental algorithms, students will be able to understand important solution strategies (e. g. divide and conquer algorithm, recursion and dynamic programming). Students will also learn about elementary data structures (e. g. linked lists and binary heaps) and will be able to use them appropriately depending on the situation.
1. Introduction
2. Mathematical principles
2.1 Number systems
2.2 Boolean algebra
3. RAM as a machine model
3.1 Components
3.2 Program correctness
3.3 Program runtime
4. Algorithms
4.1 Pseudocode from a high-level programming language
4.2 Searching
4.3 Sorting
5. Data structures
5.1 Dynamic arrays
5.2 Linked lists
5.3 Binary heaps
5.4 Binary search trees
5.5 Hash tables
Cormen Thomas H., Leiserson Charles E., Rivest Ronald L. und Stein Clifford: Algorithmen - Eine Einführung, Oldenbourg , 2013
Gumm Hans-Peter und Sommer Manfred: Einführung in die Informatik, Oldenbourg Verlag, 2012
Sedgewick Robert und Wayne Kevin: Algorithmen und Datenstrukturen, Pearson Studium, 2014
Sun Jul 21 21:48:59 CEST 2024, CKEY=pi1r, BKEY=pi2, CID=[?], LANGUAGE=en, DATE=21.07.2024