Basic knowledge of vehicle dynamics, experimental methods, vehicle construction and individual vehicle groups design is assumed.

The exercises are finished with a graded credit, which is awarded based on the evaluation of the completed independent task. This consists in processing the measured data of one of the implemented driving tests. The task is not only to process the data in the specified way, but also to draw conclusions in relation to the tested parameters and characteristics of the vehicle during the conducted test.

Exercises are compulsory, and the form of replacing the missed lessons is solved individually by the lecturer or with the course guarantor.

The objective of the course is to provide mastery of the process and logical connections in the preparation, implementation and evaluation of vehicle testing. At the same time, students will learn about current trends in the field of measuring systems and their use for the implementation of tests according to the relevant standards.

Student will acquire basic knowledge in the field of vehicle testing, which will enable him to be eruditely involved in the automotive field in the solution of various technical problems, where the implementation of an experiment is necessary primarily in relation to the driving of the vehicle itself.

ISO 26262:2018. Road vehicles – Functional safety.

REIF, Konrad a Karl-Heinz DIETSCHE. Automotive handbook: Bosch - invented for life. 8th ed., revised and extended. Chichester: John Wiley, 2011. ISBN 978-1-119-97556-4.

MARTYR, A. J. a M. A. PLINT. Engine Testing Theory and Practice. 3. Oxford: Elsevier, 2007. ISBN 978-0-7506-8439-2.

MCBEATH, Simon. Competition car data logging. 2nd ed. Newbury Park, Calif.: Haynes North America, 2008. ISBN 978-184-4255-658.

BENSRHAIR, Abdelaziz a Thierry BAPIN. From AI to Autonomous and Connected Vehicles: Advanced Driver-Assistance Systems (ADAS). 1. Ney York: Wiley-ISTE, 2021. ISBN 178630727.

• Programme N-AAE-P Master's, 2. year of study, winter semester, compulsory