Corporate Risk Management

Teachers

Included in study programs

Teaching results

The aim of the course is to provide comprehensive concepts of risk management in companies for students. The course provides an overview and interpretation of tools to understand and master the theoretical and practical knowledge related to the identification, analysis, measurement, and assessment of risk. The course also focuses on use of new methods and tools of risk management for selection of appropriate strategies.

Knowledge:
The graduate will gain knowledge about corporate risk management. The knowledge covers development of risk management concepts, methods of risk identification and analysis, as well as models for risk measurement and risk assessment. Case studies analyses helps graduate to understand the basic strategies of risk management.

Skill:
The graduate will be able to create economic models using spreadsheets and apply mathematical and statistical tools to business processes. Skillset also encompasses mastering the probability theory and uncertainty estimation. Other abilities include identification, measurement, and assessment and management of corporate risks.

Competence:
The graduate will master the rules and procedures of creating economic models with elements of uncertainty and risk. They will master the process of design and assessment of economic models and simulations. The graduate will be able to provide recommendation for the transfer, reduction and elimination of risks and other economic problems.

Indicative content

Lectures:
Introduction to probability theory
Basic concepts of risk
Risk classification
Identification of risks in the company
Risk analysis
Risk assessment
Selection of risk variants
Risk management
Tree diagrams
Expert methods of risk assessment
Monte Carlo simulation
Methods of risk treatment
Other methods of risk reduction

Seminars:
Introduction to probability theory. Classical definition of probability.
Probability of Multiple Random Variables. Joint and union probability, probability of dependent and independent phenomena.
Conditional probability, Bayes' theorem.
Discrete random variable. Discrete distributions and their application in risk analysis.
Continuous random variable. Continuous distributions and their application in risk analysis.
Midterm exams I.
Use of MS Excel for economic analysis.
Creation of models using MS Excel.
Sensitivity analysis using MS Excel.
Scenario planning using MS Excel.
Monte Carlo simulation. Monte Carlo simulation procedure. Monte Carlo simulation in MS Excel.
Rules of decision-making in conditions of risk. Case Study I: Risk assessments using descriptive characteristics: percentiles, median, mode, skewness, sharpness.
Midterm exam II.

Support literature

Elementary literature:
1. TKÁČ, M. - TKÁČ, M. Podnikové riziká I : posudzovanie a zaobchádzanie s rizikom. 1. vyd. Bratislava: Ekonóm, 2016. 202 s. ISBN 978-80-225-4330-9.
2. PELIKÁN Š. Pravděpodobnost: cvičení Pedagogická fakulta UJEP, 1996 – 137s
3. LEHMAN, Dale; GROENENDAAL, Huybert. Practical Spreadsheet Modeling Using@ Risk. CRC Press, 2019
4. TICHÝ, Milík. Ovládání rizika: analýza a management. Nakladatelství CH Beck, 2006.
5. FOTR, Jiří; HNILICA, Jiří. Aplikovaná analýza rizika. Praha, Grada Publishing, 2014.
6. SIVÁK, R., a kol. Riziko vo financiách av bankovníctve (5th vyd.). Bratislava: Sprint, 2018, 2.
Supplementary literature:
1. YOE, Charles. Principles of risk analysis: decision making under uncertainty (2 ed). CRC press, 2019.
2. LEHMAN, Dale; GROENENDAAL, Huybert; NOLDER, Greg. Practical spreadsheet risk modeling for management. CRC Press, 2011.

Syllabus

Lectures: Introduction to probability theory Basic concepts of risk Risk classification Identification of risks in the company Risk analysis Risk assessment Selection of risk variants Risk management Tree diagrams Expert methods of risk assessment Monte Carlo simulation Methods of risk treatment Other methods of risk reduction Seminars: Introduction to probability theory. Classical definition of probability. Probability of Multiple Random Variables. Joint and union probability, probability of dependent and independent phenomena. Conditional probability, Bayes' theorem. Discrete random variable. Discrete distributions and their application in risk analysis. Continuous random variable. Continuous distributions and their application in risk analysis. Midterm exams I. Use of MS Excel for economic analysis. Creation of models using MS Excel. Sensitivity analysis using MS Excel. Scenario planning using MS Excel. Monte Carlo simulation. Monte Carlo simulation procedure. Monte Carlo simulation in MS Excel. Rules of decision-making in conditions of risk. Case Study I: Risk assessments using descriptive characteristics: percentiles, median, mode, skewness, sharpness. Midterm exam II.

Requirements to complete the course

Midterm written exams
Final written exam

Midterm evaluation:
midterm written exams - 40% of course (total points 40)
Minimal points required to pass midterm written exams are 21 points (out of 40 points).

Final written exam:
final written exam - 60% of course (total points 60)
Minimal points required to pass final written exams are 31 points.

Student workload

26 hours of participation in lectures – 26 hours
13 hours preparation for lectures – 13 hours
26 hours of participation in seminars – 26 hours
13 hours preparation for seminars – 13 hours
26 hours preparation for midterm written exams – 26 hours
26 hours preparation for the final exam – 26 hours
Total: 130 hours

Language whose command is required to complete the course

Slovak

Date of approval: 05.03.2024

Date of the latest change: 13.05.2022