1. Mathematic car equation.
2. Mathematic equation of brake/wheel.
3. Basic mathematical model of the damper-spring system, evaluation and calculation of data from dynamic testing.
4. The car electronics, the ABS principle.
5. The car electronics, the ASR principle.
6. The car electronics, the ESP principle.
7. Measurement – lambda, injection, ignition.
8. Data transmission and vehicle diagnostics.
9. Measurement units and data loggers for riding tests.
10. Riding tests, measuring of source spectra for dynamic testing.
11. Analysis of data from riding tests, the velocity, position, acceleration, throttle and brake position.
12. Analysis of data from vibration on wheels, analysis of ride comfort.
2. Mathematic equation of brake/wheel.
3. Basic mathematical model of the damper-spring system, evaluation and calculation of data from dynamic testing.
4. The car electronics, the ABS principle.
5. The car electronics, the ASR principle.
6. The car electronics, the ESP principle.
7. Measurement – lambda, injection, ignition.
8. Data transmission and vehicle diagnostics.
9. Measurement units and data loggers for riding tests.
10. Riding tests, measuring of source spectra for dynamic testing.
11. Analysis of data from riding tests, the velocity, position, acceleration, throttle and brake position.
12. Analysis of data from vibration on wheels, analysis of ride comfort.