Aim of the course is to give students confidence and autonomy in design and usage of common industrial measurement systems, and to provide students the ability to perform and evaluate measurements in low controlled environment.
measurement uncertainty
static and dynamic property of transducers
static and dynamic calibration
data acquisition systems
spectral analysis
measurement system design
labview
intro + GUM
data type, workflow, case
pract. GUM + MMC
array, cycles (MMC)
least square
least square + LS unc.
subVI and projects
static properties and calibration
pract. calibration (LS)
daq, aliasing, resolution
waveform, daq & cluster
LC and strain gauges
projects, errors and conventions
spectral analysis (FRF,FFT,PS, PSD, TFA)
individual tasks
E.O. Doebelin - Measurement Systems, application and design - McGraw-Hill
Coleman Steel - Experimentation and Uncertainty Analysis for Engineers - Wiley & Sons
ISO 13005 - Guide to the expression of uncertainty in measurements - ISO
International vocabulary of basic and general terms in metrology - ISO
J.P. Bentley - Principles of measurement systems - Pearson Higher Education
J.W. Dally, W.F. Riley, K.G. McConnell - Instrumentation for Engineering Measurements - J. Wiley & S.
J.W. Dally, W.F. Riley - Experimental stress analysis - McGraw Hill
T.G. Beckwith, R.D. Marangoni, J.H. Lienhard - Mechanical Measurements - Addison-Wesley
R.S. Figliola, D.E. Beasley - Theory and design for mechanical measurements - J. Wiley & S.
lessons
practices
individual tasks
public presentation and oral discussion
part of the course will be spent on learning labview