After successful completion of the course, students are able to correctly describe and design measurement systems based on the required resolution in time and space and with a view of the noise signals, select suitable components and give an estimate of the expected performance.
Signals and Noise . analog and digital signals, transmission lines . various types of noise: nyquist, shot, quantization,... . signal/noise-ratio, information, entropy, bandwidth, throughput . sampling-theorem, time and frequency domain, fourier transform, filtering, convolution,
Sensors, Imaging systems . direct imaging, image sensors, limits of resolution, noise, scanning system, electron and ion beam, ultrasound, radar, lasers. . tomographic systems. Systems base on quatum mechanics, e.g. atomic clocks.
Fundametals of control systems . P, PI PID regulators, . control loop, stability
The lecture will be held in the lecture room
Time shifted to 11:15 - 12:45
The link below will only be used in special situations to be announces as needed.
https://tuwien.zoom.us/j/94814542243