LEARNING OUTCOMES

Operative comprehension of the foundations of measurement, including elements of probability and statistics, static and dynamic analysis of measuring systems, evaluation of uncertainty, calibration, components selection, signal conditioning, measurement of mechanical and thermal quantities.

AIMS AND LEARNING OUTCOMES

The students will learn the general measurement principles and the physical working principles of the main measurement instruments. The students will be able to analyse a measurement chain discussing static and dynamic functionalities, using methods and technical approaches typical of measurement expertise. Furthermore, the students will be able to evaluate the reliability of a measurement result and analyse the uncertainty associated to a given measurement chain.

Finally, the students will be able to deepen their knowledge about measurement systems and instrumentation by autonomous bibliography research on books, papers or specific periodicals.

TEACHING METHODS

The course is mainly structured in frontal lectures where the course topics are treated using slides and the blackboard. During the lessons, exercises and examples will be presented to facilitate the understanding of the topics. If possible, the students will carry out simple laboratory experiences.

All the course material will be uploaded on the course website using Aulaweb. Notes, slides, tables, spreadsheets and all the material available on the website is part of the course. Those students who do not attend the lectures are recommended to look at the website to check the communications and the course material.

SYLLABUS/CONTENT

• Probability and statistics fundamentals: probability, random variables, variance and covariance, linear regression.
• General principles: measurement uncertainty evaluation, calibration procedures, dynamic behaviour of measurement systems.
• Sensors: elastic sensors, seismic sensors, strain gauges, resistance temperature detectors, thermocouples, capacitive and inductive sensors.
• Signal conditioning elements: Wheatstone bridges, amplitude modulation and demodulation, amplifiers, filters, effects of interference on measurements circuits and their reduction.
• Analogue and digital recording systems, basics of signal sampling and aliasing effect.

RECOMMENDED READING/BIBLIOGRAPHY

Material for persoanl study will be available in aulaweb. The following references could be used in case of paritcular interest in specific topics.

• P. Bentley, Principles of measurement systems, Longman, 2005;
• E. O. Doebelin, Strumenti e metodi di misura, McGraw-Hill, 2004;
• W. Dally, et alii, Instrumentation for engineering measurement , Wiley, 1993;
• A. Papoulis, Probabilità, variabili aleatorie e processi stocastici, Boringhieri, Torino, 1985;
• Rotondi, P. Pedroni, P. Pievatolo, Probabilità Statistica e Simulazione, Springer, Milano 2005.
• Standards and international Guides :UNI CEI ENV 13005, ISO 10012, ISO 17025.