Environmental metrology

Duration

24h Th, 24h Pr

Number of credits

Lecturer

Benoît Mercatoris

Language(s) of instruction

French language

Organisation and examination

Teaching in the second semester

Schedule

Schedule online

Units courses prerequisite and corequisite

Prerequisite or corequisite units are presented within each program

Learning unit contents

In the frame of study and management of agro-ecosystems, the environmental metrology takes an important place. It allows monitoring the evolution of the environment in a reliable way, feeding the decision support systems and optimising the tools.
This course is about the study of the different components of an acquisition chain and the physical principles used within the sensors. The theoretical aspects linked to the statistical analysis of experimental data and to the signal treatment in the time and frequency domains are addressed. A part of the course is devoted to the presentation of instruments used for studying and/or managing agro-ecosystems.

Learning outcomes of the learning unit

By the end of the course, the students will have reached an intermediate level of skills in the following development step:

• Designing and sizing equipment of monitoring and production in an agro-environmental context.
• Choosing and sizing systems of purification, sanitation and production of renewable energy.

• Sizing a simple equipment on the basis of specifications using existing technical solutions.
• Implementing the most used technics of measurements of fluxes between water, soil, fauna, flora and atmosphere.

• Understand the different characteristics of sensors.
• Analyse uncertainties in measurement.
• Know about basic concepts in signal treatment.
• Acquire a synthetic view of an acquisition chain and of its different elements
• Understand the physical principles of sensors.
• Understand the main data acquistion systems used in a environmental and agricultural context.

Prerequisite knowledge and skills

The fundamental knowledge in mathematics and electricity are required.

Planned learning activities and teaching methods

The learning is divided into three narrowly connected activities using each of them a complementary teching method:
1) Face-to-face theoretical sessions (12x2h).
2) practical sessions in metrology lab (8x3h).
3) Distance-learning by means of exercices.

Mode of delivery (face-to-face ; distance-learning)

The course combines several modes of delivery: (i) the face-to-face mode in auditorium for the lectures, (ii) the face-to-face in groups for the labs and (iii) the distance-learning for the exercises.
The course is given in French and the material is in English.

Recommended or required readings

Fraden J., 2010. Handbook of Modern Sensors - Physics, Designs, and Applications. Springer. http://link.springer.com/book/10.1007/978-1-4419-6466-3.

Assessment methods and criteria

For each session, a written exam is organised in French and includes (i) a theoretical part without note for knowledge assessment and (ii) a practical part with notes for know-how assessment. The both parts are weighted.
The basic knowledge required for the good proceedings of the lab are assessed through online tests before each practical session. The marking of the tests is based on a bonus-penalty system taken into consideration only for the first session.

Work placement(s)

Organizational remarks

Contacts

Prof B. MERCATORIS
Biosystems Dynamics and Exchanges (BIODYNE)
Building 2 (GR) ; Office 2-0-7 ; Tel +32 81 62 21 98
benoit.mercatoris@uliege.be

Adaptation of teaching commitments following the COVID-19 pandemic for the May-June 2020 session

Teaching methods implemented : distance-learning

As a consequence of the sanitary crisis, the teaching of this course has switched to a reverse classroom mode.
Written material is made more explicit and complemented by pre-selected open-access video sequences to explain and illustrate the fundamental concepts. The relevant chapters are accompanied by a roadmap to help the students read the materials and view the videos alternately.
The lab sessions are presented as homework via eCampus. The electronic circuit and material manipulations has been scripted and filmed in order to better present the solutions. The online pre-tests remain on the agenda.
For the theory, labs and exercises, debriefing sessions are planned in videoconference after the study of the material in order to answer students' questions.

Assessment subjects

The 5 chapters of the course:

• Introduction
• Sensors
• Data acquisition systems
• Signal processing
• Physical principles of sensors and applications

• Impedance matching and Wheatstone bridge
• Operational amplifiers
• Calibration of an accelerometer
• Calibration of a proof body
• Filter sizing

• Sensor characteristics
• Data Acquisition
• Signal processing
• Integrated exercises

Assessment methods

A written exam will be held remotely on the eCampus platform.
The examination will consist of (i) theoretical questions assessing the understanding of the fundamental concepts of the course and (ii) exercise questions integrating several parts of the course.
The examination will be limited in time. Alternatives will be provided depending on the technical and/or computer problems encountered during the examination.
Practical details are communicated to students on the eCampus page of the course.

Contacts

A forum is available to students on the eCampus page of the course.
In case of problems, please contact Prof. B. Mercatoris via benoit.mercatoris@uliege.be

Adaptation of teaching commitments following the COVID-19 pandemic for the Aug-Sept 2020 session

Assessment subjects

The 5 chapters of the course:

• Introduction
• Sensors
• Data acquisition systems
• Signal processing
• Physical principles of sensors and applications

• Impedance matching and Wheatstone bridge
• Operational amplifiers
• Calibration of an accelerometer
• Calibration of a proof body
• Filter sizing

• Sensor characteristics
• Data Acquisition
• Signal processing
• Integrated exercises

Assessment methods

A written exam will be held remotely on the eCampus platform.
The examination will consist of (i) theoretical questions assessing the understanding of the fundamental concepts of the course and (ii) exercise questions integrating several parts of the course.
The examination will be limited in time. Alternatives will be provided depending on the technical and/or computer problems encountered during the examination.
Practical details are communicated to students on the eCampus page of the course.

Contacts

A forum is available to students on the eCampus page of the course.
In case of problems, please contact Prof. B. Mercatoris via benoit.mercatoris@uliege.be