(Check the official documents of the degree)



(TEEOI10) Industrial Information Technology and communications



(C3) Basic technology

(C4) Problem solving

(C5) Measuring and reporting

(C10) Multilingual / Multidisciplinary work environments

(C13) Scientific methodology



And the expected learning results are these:



- To be able to interpret technical documents

- To design Control and Supervisory systems

- To analyse industrial systems

- To design and implement informatics systems for the industry



We will also tackle some transversal competences, ask the teachers if you need further information.

The UPV/EHU Catalogue of Transversal Competences has not been translated yet, but it is available in Spanish in the following link:



https://www.ehu.eus/documents/1432750/12757375/Cat%C3%A1logo+de+Competencias+trasnversales_cas.pdf

1.-Industrial IT in our industrial environment

2.-Industriak IT fundamentals

3.-Real Time Systems and IoT

4.-Communications and the Cloud

The aim of the course is to make the students learn in a gradual way, in order to be able to design and implement industrial applications of some complexity. The methodology to achieve this gradual learning is mainly stressed with the practical tests: two teststhat the student must pass during the regular term period.



It is important to make clear that the goal of the tests is not to check if the students are able to employ the programming tool (LabVIEW). The goal is to check if the student is able to analyze and design industrial informatics applications (using the proposed tool).

In a nutshell, the subject has five evaluation items and the student needs to get 50% of the points in each item to pass the course.



The items are the following:



1.- LabVIEW Basics practical test 20%

This test will be held in the laboratory during the regular practical sessions. There would be an extra chance to pass this test in the official exam date.



2.- Team work on industrial applications 50%

The details of this work will be explained beforehand.



3.- Report of the laboratory sessions (two days after the official exam date) 10%

The student will report on the work done during the laboratory sessions.



The student must pass all the parts to pass the course.



Students who want to avoid the continuous assessment method or to avoid sitting the exam should follow current regulations. Do not hesitate to contact the coordinator of the course if you have any question about the assessment.

Documents available in eGela. If you have any issue accessing eGela, just ask the teachers.
It is strongly recommended to install LabVIEW 2021 in your own laptop. The UPV/EHU has a student license available (https://www.ehu.eus/liz/niacademic/).

Basic bibliography

egela.ehu.eus

In-depth bibliography

- Introduction to data acquisition with LabView. Robert King. McGraw-Hill, New York, 2013.
- LabVIEW Data Acquisition Basics Manual. National Instruments. 1998.
- Absolute Beginner's guide to C. Greg Perry. SAMS.
- LabVIEW. Programación gráfica para el control de instrumentación. Antonio Manuel Lázaro. Ed. Paraninfo.
- LabVIEW programming, data acquisition and analysis. Jeffrey Beyon. Ed. Prentice Hall.
- Hands-on exercise manual for LabVIEW programming, data acquisition and analysis. Jeffrey Beyon. Ed. Prentice Hall.
- NI myRIO Project Essentials Guide. Ed Doering. Ed. National Technology and Science Press.

Journals

Revista Iberoamericana de Automática e Informática Industrial RIAI
ISSN: 1697-7912
http://www.journals.elsevier.com/revista-iberoamericana-de-automatica-e-informatica-industrial-riai/

IEEE Transactions on Industrial Informatics
ISSN 1551-3203
http://tii.ieee-ies.org/

Computers & Industrial Engineering
ISSN: 0360-8352
http://www.journals.elsevier.com/computers-and-industrial-engineering