Identifying Data

2020/21

Subject (*)

Internet of Things (IoT)

Code

770G01055

Study programme

Grao en Enxeñaría Electrónica Industrial e Automática

Descriptors

Cycle

Period

Year

Type

Credits

Graduate

2nd four-month period

Fourth

Optional

4.5

Language

Spanish

Galician

Teaching method

Face-to-face

Prerequisites

Department

Enxeñaría Industrial

Coordinador

Rivas Rodriguez, Juan Manuel

E-mail

m.rivas@udc.es

Lecturers

Rivas Rodriguez, Juan Manuel

E-mail

m.rivas@udc.es

Web

General description

Esta asignatura permite que o alumno sexa capaz de:
-Comprender os conceptos básicos da IoT
-Coñecer os fundamentos das tecnoloxías da comunicación definidos para IoT
-Adquirir coñecementos sobre algunhas ferramentas, plataformas software e hardware de desenrrolo da IoT

Contingency plan

1. Cambios de contido
Non se fará ningunha modificación do contido

2. Metodoloxías
* Metodoloxías de ensino que se manteñen
Sesión maxistral, prácticas, traballos tutelados, proba mixta
* Metodoloxías de ensino que se modifican

3. Mecanismos de atención personalizada aos estudantes
Tanto a sesión maxistral como as prácticas realizaranse a través da plataforma Microsoft Teams.
As programacións de titorías mantéñense a través da plataforma Teams e do correo electrónico.

4. Modificacións na avaliación
A proba mixta e as probas prácticas realizaranse a través da plataforma Moodle.

* Observacións de avaliación:
Os mínimos necesarios para superar a materia mantéñense naquelas metodoloxías que non se modificaron.

5. Modificacións da bibliografía ou webgrafía
Non se farán modificacións

Study programme competencies

Code	Study programme competences
A33	Coñecemento aplicado de informática industrial e comunicacións.
B5	Capacidade para empregar as técnicas, habilidades e ferramentas da enxeñaría necesarias para a práctica desta.
B6	Capacidade de usar adecuadamente os recursos de información e aplicar as tecnoloxías da información e as comunicacións na enxeñaría.
B8	CB1 - Que los estudiantes hayan demostrado poseer y comprender conocimientos en un área de estudio que parte de la base de la educación secundaria general, y se suele encontrar a un nivel que, si bien se apoya en libros de texto avanzados, incluye también algunos aspectos que implican conocimientos procedentes de la vanguardia de su campo de estudio.
C2	Utilizar as ferramentas básicas das tecnoloxías da información e as comunicacións (TIC) necesarias para o exercicio da súa profesión e para a aprendizaxe ao longo da súa vida.

Learning aims

Learning outcomes	Study programme competences
-Understand the basic concepts of the IoT	A33	B6
-Know the fundamentals of communication technologies defined for IoT	A33		C2
-To acquire knowledge about some IoT development tools, software platforms and hardware.	A33	B5 B8	C2

Contents

Topic	Sub-topic
Introduction to IoT	- Basic concepts.
IoT communication technologies	- LPWANs - Based on cellular technology. - WiFi, Bluethooth. - Others.
Software platforms for IoT	- Open source. - Commercial software.
Systems-on-a-chip for IoT	- Manufacturers. - Characteristics.

Planning

Methodologies / tests	Competencies	Ordinary class hours	Student’s personal work hours	Total hours
Guest lecture / keynote speech	A33	12	30	42
Laboratory practice	B5 B6 B8 C2	19.5	47.5	67
Objective test	B8	3.5	0	3.5

Personalized attention		0		0

(*)The information in the planning table is for guidance only and does not take into account the heterogeneity of the students.

Methodologies

Methodologies	Description
Guest lecture / keynote speech	Oral exposition complemented with the use of audiovisual media and the execution of questions directed to the students, with the purpose of transmitting knowledge, facilitating learning and promoting debate.
Laboratory practice	Methodology that allows students to learn effectively through practical activities, such as demonstrations, exercises, experiments and research.
Objective test	Duration 3.5 hours. It will be done individually and in person.

Personalized attention

Methodologies

Laboratory practice

Description

It will be carried out in the laboratory practices and through the tutorials in the supervised projects.

Assessment

Methodologies	Competencies	Description	Qualification
Objective test	B8	Made individually.	40
Guest lecture / keynote speech	A33	Class participation will be taken into account, representing 10% of the grade.	10
Laboratory practice	B5 B6 B8 C2	Device programming that will be done in person. Students who have the necessary hardware can do them electronically.	50

Assessment comments
In laboratory practices and in the objective test must be obtained al least 40% of the maximum poits in each part in order to pass the subject.

Sources of information

Basic	Pizarro Peláez, Jesus (2019). Internet de la cosas con Arduino. Madrid:Paraninfo López i Seuba, Manel (2019). Internet de las cosas:la transformación digital de la sociedad. Paracuellos del Jarama:Ra-Ma

Complementary

Recommendations

Subjects that it is recommended to have taken before

Computer Science/770G01002

Analog Electronics/770G01022

Digital Electronics/770G01023

Subjects that are recommended to be taken simultaneously

Subjects that continue the syllabus

Other comments

(*)The teaching guide is the document in which the URV publishes the information about all its courses. It is a public document and cannot be modified. Only in exceptional cases can it be revised by the competent agent or duly revised so that it is in line with current legislation.