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Syllabus 2022-23 - 14511010 - Linear Systems (Sistemas lineales)
- Level 1: Tutorial support sessions, materials and exams in this language
- Level 2: Tutorial support sessions, materials, exams and seminars in this language
- Level 3: Tutorial support sessions, materials, exams, seminars and regular lectures in this language
DEGREE: | Grado en Ingeniería telemática (14511010) |
FACULTY: | SCHOOL OF ENGINEERING OF LINARES |
DEGREE: | Grado en Ingeniería de telecomunicación (14311010) |
FACULTY: | SCHOOL OF ENGINEERING OF LINARES |
DEGREE: | Doble Grado Ing. de tecnologías de la telecomunicación e Ing. telemática (15211009) |
FACULTY: | SCHOOL OF ENGINEERING OF LINARES |
ACADEMIC YEAR: | 2022-23 |
COURSE: | Linear Systems |
NAME: Linear Systems | |||||
CODE: 14511010 (*) | ACADEMIC YEAR: 2022-23 | ||||
LANGUAGE: English | LEVEL: 1 | ||||
ECTS CREDITS: 6.0 | YEAR: 1 | SEMESTER: SC |
NAME: PÉREZ DE PRADO, ROCÍO JOSEFINA | ||
DEPARTMENT: U134 - INGENIERÍA DE TELECOMUNICACIÓN | ||
FIELD OF STUDY: 800 - TEORÍA DE LA SEÑAL Y COMUNICACIONES | ||
OFFICE NO.: D - D-129 | E-MAIL: rperez@ujaen.es | P: 953648659 |
WEBSITE: http://www4.ujaen.es/~rperez/ | ||
ORCID: https://orcid.org/0000-0001-6097-4016 | ||
LANGUAGE: - | LEVEL: 1 |
THEORETICAL BLOCK
The theoretical contents of Linear Systems focus on the study of signals and systems in continuous and discrete variables, both in the time domain and in the frequency domain. Likewise, it is intended to introduce students to the basic concepts of filtering, sampling and Z transform.
In addition, the student will be provided with the ability to keep up to date with developments in science and technology, especially in this type of subject, which is so closely linked to a dynamic environment such as telecommunications.
The program of the theoretical block consists of five topics, with the structure that appears below.
Unit 1. Signals and Continuous Systems.
- Introduction to signals in continuous time.
- Basic operations with continuous signals.
- Classification of continuous signals.
- Continuous linear time-invariant (LTI) systems.
- Impulse response in continuous systems.
- Convolution operation in continuous time.
Unit 2. Fourier Analysis of Continuous Signals.
- Response of an LTI system to a continuous complex exponential input.
- Fourier series development of continuous signals.
- Fourier transform of continuous signals. Definition and properties.
- Transfer function of a continuous system. Continuous system as a filter.
- Frequency response of continuous systems.
Unit 3. Signals and Discrete Systems.
- Introduction to signals in discrete time.
- Basic operations with discrete signals.
- Classification of discrete signals.
- Linear time-invariant systems (LTI) in discrete variables.
- Impulse response in discrete systems.
- Convolution operation on discrete variable.
Unit 4. Fourier Analysis of Discrete Signals.
- Response of an LTI system to a discrete complex exponential input.
- Fourier series development of discrete periodic signals.
- Fourier transform of discrete signals. Definition and properties.
- Transfer function of a discrete system. Discrete system as a filter.
- Frequency response of discrete systems.
Unit 5. Sampling and Filtering. Z transform.
- Sampling theorem. Nyquist frequency.
- Fundamental concepts of filtering.
- Fundamental concepts and definitions of Transform Z.
- Introduction to analog and digital filter techniques.
PRACTICAL BLOCK
The practical block of the subject is made up of practices in the laboratory, and its nature is compulsory.
The objective of the proposed practices is to achieve the established competences, facilitating the student's understanding of the concepts included in the theoretical block of the subject through their practical study and through their association with basic engineering problems that serve as motivation.
In addition, information communication skills, ideas, problems and solutions in the field of engineering and society in general will be developed through documentation delivery processes or oral presentations.
With regard to the organization of work, collaboration and teamwork will be encouraged through the actual design of the practices.
The work is structured in two blocks:
Block 1. Signals and systems in the temporal domain.
Basic representation, classification, analysis and basic operations with signals and systems in the temporal domain. Application in engineering problem. It integrates practices 1 and 2.
Block 2. Signals and systems in the frequency domain. Sampling and filtering.
Basic representation of signals in the frequency domain from signals in the time domain. Study of properties of the Fourier transform. Filtering and sampling. Application in engineering problems. It integrates practice 3.
SEMINARS
In order to support the student, it is proposed to carry out a seminar to reinforce basic mathematical concepts in communications, which will be necessary to understand for the proper development of learning in the subject.
Seminar. Basic mathematical concepts in communications.
The development of the expository classes in large groups, as well as in small groups, will be focused on promoting quality teaching, prioritizing activities that promote inclusive and equitable learning (ODS-4).
A-1 Expository classes in a large group
The methodology to be followed in the large group lectures will be a mixture of introductory activities, master classes and the presentation of theory and general examples in the classroom designated for the subject by the center. In addition to exposing the theoretical contents of the subject, the ability to collect and interpret data and handle complex concepts within telecomunications/telematics engineering will be developed and enhanced, in order to make judgments that imply reflection on ethical and social issues.
The student must follow the teacher's presentation with the material delivered for this purpose, whether they are notes or slide presentations, which must be completed with their own notes and with the subsequent revision of the basic and/or recommended bibliography.
Active, respectful and responsible participation, whether to raise questions or to respond to the teacher's requirements or questions, will be positively evaluated in its corresponding factor. Likewise, the student's ability to make judgments about the concepts that are presented to them will be encouraged and valued positively, being especially important their ability to collect and interpret data and manage complex concepts within their specialty, to make judgments that imply reflection on ethical and social issues. In this sense, the ability to keep up to date with new developments in science and technology and to correlate these new developments with the content of the subject will be promoted in classes.
The student's autonomous work should focus on reviewing the concepts and theoretical aspects seen in class, carrying out exercises, as well as studying them with the material provided by the teacher, student notes and bibliography.
In addition, in the expository class sessions, controls will be carried out to supervise the progression and assimilation of the concepts by the student.
A-2 Small group classes
The work of the small group classes will be based firstly on practical activities in the laboratory. The student's work will focus on the development of applications, or learning tasks designated by the teacher, culminating in the achievement of the objectives set for practice. Secondly, the small group classes will consist of solving exercises and practical questions of the subject. Finally, seminars will also be held to delve into relevant and complementary aspects of the subject.
Attendance, as well as active, respectful and responsible participation, whether to ask questions or to respond to the teacher's requirements or questions, will be positively evaluated in its corresponding factor. In addition, communication and teamwork will be encouraged both in the exercise resolution sessions and in laboratory practices, and the ability to effectively communicate information, ideas, problems and solutions in the field of engineering and with society in general will be valued. .
With regard to autonomous work, it will focus on completing the work started in the laboratory and solving problems that could not be completed in the corresponding session. The ability to manage, in an introductory way, complex technical or professional activities or projects in the field of signal theory will be fostered, with the student taking responsibility for decision-making at various stages of their learning. With these activities, continuous training for students will also be promoted and the ability to recognize the need for their own continuous training and to undertake this activity throughout their professional life independently will be instilled.
In addition, work in a collaborative environment will be encouraged, as well as mixing with the communication of results, with special emphasis on the need for ongoing training in activities related to telecommunications throughout their professional life independently.
A-3 Collective tutorials
The collective tutorials will be used in the resolution of doubts, monitoring and supervision of the works and exercises in a virtual way through forums or other digital means indicated by the teaching staff as well as in the attendance and participation in different seminars, talks, conferences, workshops and/or or conferences, designated by the teacher, in order to complete and update the training and obtain general, transversal and/or specific skills defined for this activity, such as the value of continuous training, entrepreneurship or the review of technological innovations in the subject.
Attendance in the case of face-to-face activity, as well as active, respectful and responsible participation in the aforementioned activities, will be evaluated according to the provisions of the evaluation system of this guide.
Students with special educational needs should contact the Student Attention Service (Servicio de Atención y Ayudas al Estudiante) in order to receive the appropriate academic support
GLOBAL ASSESSMENT
The Global Assessment modality will be carried out according to the outcomes of the activities described in the section "Methodology and activities", in addition to those described in the section "Detailed description of the Global Assessment" that will be weighted by considering the aspects and percentages detailed in the above table.
The Global assessment modality consists of two parts:
- The work assessment during the term, according to the tasks defined for this purpose.
- The completion of a FINAL EXAM on the day set for the exam during the evaluation period.
The distribution of the weights for each assessable aspect of the two aforementioned parts, and according to the activities described in the table above, is as follows:
Table 1. Weighting of the Global Assessment.
Aspect |
Teaching period |
Final Exam |
Total by aspect |
S1 Attendance and participation |
10 % |
- |
10 % |
S2 Theoretical concepts |
15 % |
15 % |
30 % |
S3 Exercises, problems and study cases |
15 % |
15 % |
30 % |
S4 Laboratory or computer practical work |
30% |
|
30 % |
Total for the subject |
70 % |
30% |
100% |
Grades obtained in an aspect during the teaching term in the GLOBAL assessment will be maintained until the end of the academic year.
Final Exam: At the end of the term, on the day set for the course within the exam period, there will be a final exam of the theoretical part and exercises of the course (aspects S2 and S3), in which students must demonstrate that they have acquired the competences and learning outcomes established for these aspects. The weight of this exam in the final grade will be 30% of the total, as reflected in the table "Weighting of the Global Assessment", with 15% corresponding to aspect S2 and the other 15% to aspect S3. The specific conditions, as well as the material and/or documentation that may be used in the final exam will be established by the lecturer.
Final Assessment
In order to pass the course, students must obtain a grade equal to or higher than 5.0 out of 10 in the overall results considering all the assessed aspects, provided that they have obtained a grade equal to or higher than 4.0 in the final exam and in the laboratory/computer practical part (S4).
Students will have the option of resigning the GLOBAL evaluation, and it will not be possible to return to it once the resignation has been made.
FINAL EXAM
In the FINAL EXAM modality, an exam will be held on the day set for the course within the exam period, which will cover all the course contents, ensuring that students have acquired the competences and learning outcomes established for the course. The two parts of this written exam are weighed as follows:
- Part 1: Attendance and participation, theoretical concepts and completion of study cases or exercises assignments (S1, S2, and S3): 70%.
- Part 2: Laboratory/ computer practical work (S4): 30%.
The specific conditions, as well as the material and/or documentation that may be used in the Final Exam will be established by the lecturer.
In order to pass the course, students must obtain a grade equal to or higher than 5.0 out of 10 in each of the two parts.
Students who have passed the S4 aspect (laboratory/computer practical work) of the course, through GLOBAL ASSESMENT, with a grade equal to or higher than 5.0 out of 10, will not have to take Part 2 corresponding to this aspect in the exam. The same grade obtained in the GLOBAL ASSESTMENT will be assigned to this part.
The parts passed at each exam attempt will be maintained until the end of the academic year.
DETAILED DESCRIPTION OF THE GLOBAL ASSESSMENT
For those students whose evaluation is carried out globally, it will be based on monitoring and carrying out the activities included in the four categories presented in the Evaluation System, which make up the total of the evaluable elements of the subject:
S1,
Attendance and participation, 10%.
S2,
Theoretical concepts of matter, 30%.
S3,
Realization of works, cases or exercises, 30%.
S4,
Laboratory/computer practices, 30%.
Each of these blocks will be detailed in the following sections.
S1. Attendance and participation (10%)
In this section, the CGB4 competence will be evaluated.
The positive evaluation of this section will mean that the student has achieved the following skills or learning outcomes: R1, R2, R4, R13, R14.
This aspect will be valued taking into account both attendance and participation in classes, laboratory practices and collective tutorials in which seminars are attended, or other activities, organized by the Department of Telecommunications Engineering, E. P. S. de Linares, or University of Jaén and that they are recommended by the teacher responsible for the subject.
S2. Theoretical concepts of the subject (30%)
In this section, the CGB4 competence will be evaluated.
The positive evaluation of this section will mean that the student has achieved the following skills or learning outcomes: R1, R2, R4, R5, R6, R13, R14.
The evaluation of the theoretical concepts will be carried out through evaluation tests or controls raised in class by the teacher.
These tests will be individual. Its format and content will be communicated to the students before it is carried out, and it may be adapted to the course of the subject, syllabus, availability of classrooms, etc. Each test will be evaluated separately and the student will be able to obtain a grade between 0 and 10 points. The weight of each test in the final evaluation is equal.
The score to be obtained will be between 0 and 10, correspondingly extrapolated to the range between 0% and 30%, this resulting value coinciding with the total of the assessment of the section on theoretical concepts of the subject.
S3. Realization of works, cases or exercises (30%)
In this section, the CGB4 competence will be evaluated.
The positive evaluation of this section will mean that the student has achieved the following skills or learning outcomes: R1, R2, R4, R5, R6, R13, R14, R15.
The
evaluation of exercises will be carried out through evaluation
tests or controls raised in class by the teacher.
These
tests will be individual. Its format and content will be
communicated to the students before it is carried out, and it may
be adapted to the course of the subject, syllabus, availability of
classrooms, etc.
Each test will be evaluated separately and the student will be able to obtain a grade between 0 and 10 points. The weight of each test in the final evaluation is equal.
The score to be obtained will be between 0 and 10, correspondingly extrapolated to the range between 0% and 30%, this resulting value coinciding with the total of the assessment of the section on theoretical concepts of the subject.
Each test will be evaluated from 0 to 10 and the total grade will be the arithmetic mean of all of them, which will be extrapolated to the range between 0% and 30%.
S4. Laboratory/computer practices (30%)
In this section, the CGB4 competence will be evaluated.
The positive evaluation of this section will mean that the student has achieved the following skills or learning outcomes: R1, R2, R4, R5, R6, R13, R14, R15.
The evaluation of the practical concepts will be carried out through evaluation tests or controls raised in class by the teacher.
These tests will be individual and/or collective. Its format and content will be communicated to the students before it is carried out, and it may be adapted to the course of the subject, syllabus, availability of classrooms, etc.
Each test
will be evaluated separately and the student will be able to obtain
a grade between 0 and 10 points. The weight of each test in the
final evaluation is equal.
The score
to be obtained will be between 0 and 10, correspondingly
extrapolated to the range between 0% and 30%.
- Signals and systems Alan V. Oppenheim, Alan S. Willsky with Ian T. Young. Edition: -. Author: Oppenheim, Alan V.. Publisher: Prentice-Hall International (Library)
- Continuous and discrete signals and systems Samir S. Soliman, Mandyam D. Srinath. Edition: 2nd ed. Author: Soliman, Samir S.. Publisher: Prentice Hall (Library)
- Signals and systems H. Hsu, R. Ranjan. Edition: -. Author: Hsu, Hwei P.. Publisher: Tata McGraw Hill, (Library)
- Fourier transform and its applications Ronald N. Bracewell. Edition: 2nd ed. rev. Author: Bracewell, Ronald N.. Publisher: McGraw-Hill (Library)
- student's guide to Fourier transforms : with applications in physics and engineering J.F. James. Edition: 3rd ed. Author: James, J. F. (John Francis). Publisher: Cambridge University Press (Library)
- first course in fourier analysis [electronic resource] David W. Kammler.. Edition: 2nd ed.. Author: Kammler, David W., 1940-. Publisher: Cambridge University Press (Library)
- Linear Systems, Fourier Transforms, and Optics. Edition: -. Author: Gaskill, J. D. (Library)
- Fourier Transforms. Edition: -. Author: Gray, R. M. y Goodman, J. W. (Library)
1. Teaching methodology and training activities
Activities |
Format (on-site/online)* |
Teaching methodology description |
A1 - Lectures in large group.
|
On-site at 50%
|
Sessions of participatory master classes, lasting one or two hours each, held in the classroom and broadcast by videoconference to the rest of the group. Periodic rotation of students. |
A2 - Clases en grupos de prácticas |
On-site at 50% Or, in the case of being able to use a laboratory or classroom that allows full capacity - 20 students -, 100% on-site |
Development of practical sessions, lasting two hours each, in laboratories applying rotation in small groups of 50%. - Retransmission of practical classes to the rest of the group if the technical means of the classroom allow it. In the event that they are 100% on-site: Development of practical sessions, lasting two hours each, in laboratories. |
A3 - Collective Tutoring
|
On-site and online |
The tutoring sessions, both collective and individual, will be carried out preferably online (synchronous and / or asynchronous). The face-to-face tutoring sessions will be agreed between the person responsible for the subject / group and the students. |
Changes in skills and / or results
-
Changes in theoretical content
-
Changes in practical content
For 50% attendance, it is planned to attend the practices / problems on a rotating basis, keeping all the activities programmed for the case attendance 100%. For the practices, when using software means in the subject, the students from non-contact shifts will attend remotely and will be allowed access to the laboratory computers, if they cannot install the software on their particular computer equipment.
2. Evaluation system
There are no changes in the evaluation format (weights of each section) or in what is specified in the detailed evaluation.
With Global Assessment
As a summary, the following tables are added, detailing the weight and format of the final test in Global Assessment:
Ordinary Call
Evaluation test |
Format (on-site/ synchronous or asynchronous online) |
Description |
Percentage |
Global assessment - End exam |
On-site / Synchronous online depending on the number of enrolled students and capacity of assigned classroom |
At the end of the semester there will be a final test of the theoretical part of the subject (S2 and S3), in which the student must demonstrate that they have acquired the skills and learning results established for these aspects. The weight of this test in the final grade will be 50% of each aspect evaluated. The material and / or documentation that can be used in the final test will be authorized by the teacher. |
30% (15% S2 y 15% S3) |
Single test |
On-site / Synchronous online depending on the number of enrolled and capacity assigned classroom / laboratory |
In the SINGLE TEST modality, there will be an exam that will cover all the contents of the subject, ensuring that the student has acquired the skills and learning results established for it. |
S1, S2 y S3: 70% S4: 30% |
Extraordinary call
Evaluation test |
Format (on-site/ synchronous or asynchronous online) |
Description |
Percentage |
Global assessment - End exam |
On-site / Synchronous online depending on the number of enrolled students and capacity of assigned classroom |
At the end of the semester there will be a final test of the theoretical part of the subject (S2 and S3), in which the student must demonstrate that they have acquired the skills and learning results established for these aspects. The weight of this test in the final grade will be 50% of each aspect evaluated. The material and / or documentation that can be used in the final test will be authorized by the teacher. |
30% (15% S2 y 15% S3) |
Single test |
On-site / Synchronous online depending on the number of enrolled students and capacity of assigned classroom /laboratory |
In the SINGLE TEST modality, there will be an exam that will cover all the contents of the subject, ensuring that the student has acquired the skills and learning results established for it. |
S1, S2 y S3: 70% S4: 30% |
3. Resources
Expository classes in large groups or practice groups at 50%
In the case of 50% attendance, the following resources will need to be used:
Technical means in the classroom:
- Videoconference infrastructure in the classroom or laboratory consisting of a video and audio capture system for use in a videoconference system or virtual classroom such as Google Meet or BigBlueButton.
Individual media (students in non-face-to-face format)
- PC equipment or similar.
- Videoconference system or virtual classroom such as Google Meet or BigBlueButton.
Common means (teachers and students):
- Use of interactive tools: screen sharing to use comments as a virtual whiteboard in PDF presentations.
- Use of the teaching platform of the University of Jaén: messaging, forums, tasks, activities and means of evaluation.
Practice groups at 100%
Given that the attendance in the Classes in practice groups is 100%, no exceptional resources are foreseen for them.
1. Teaching methodologies and activities
Activities |
Format (on-site/online)* |
Teaching methodology description |
A1 - Lectures in large group.
- Asynchronous lectures based on videos and / or audiovisual content, forums, interactive material, etc. |
Online |
The sessions of participative face-to-face classes, of one or two hours each, are replaced by other activities carried out through the Internet such as: - Visualization of videos with explanation of the theoretical contents. - Review of interactive material on the subject. - Review of content on the Internet (forums, - specialized websites) |
A2 - Practical lectures |
Online |
Practical sessions are replaced by online training activities, lasting two hours each, by other activities carried out through the Internet such as: - Virtualized or simulation activities. - Visualization of videos with explanation of the practical contents. - Review of interactive material about practices. - Online content review (forums, specialized websites, etc.) |
A3 - Collective tutoring
|
Online |
The tutoring sessions, both collective and individual, will be carried out completely in person through online media synchronously and / or asynchronously. |
Changes in skills and / or results
-
Changes in theoretical content
-
Changes in practical content
Modifications in the practical contents are not contemplated since software media is used in all on-site and online modalities in this subject. Students will be allowed remote access to the laboratory computers, if they cannot install the software on their private computer equipment, as in the case of remote access in the 50% multimodal mode.
2. Sistema de evaluación
There are no changes in the evaluation format (weights of each section) or in what is specified in the detailed evaluation.
With Global Assessment
As a summary, the following tables are added, detailing the weight and format of the final test in Global Assessment:
Ordinary Call
Evaluation test |
Format (on-site/ synchronous or asynchronous online) |
Description |
Percentage |
Global assessment - End exam |
Synchronous online |
At the end of the semester there will be a final test of the theoretical part of the subject (S2 and S3), in which the student must demonstrate that they have acquired the skills and learning results established for these aspects. The weight of this test in the final grade will be 50% of each aspect evaluated. The material and / or documentation that can be used in the final test will be authorized by the teacher. |
30% (15% S2 y 15% S3) |
Single test |
Synchronous online |
In the SINGLE TEST modality, there will be an exam that will cover all the contents of the subject, ensuring that the student has acquired the skills and learning results established for it. |
S1, S2 y S3: 70% S4: 30% |
Extraordinary call
Evaluation test |
Format |
Description |
Percentage |
Global assessment - End exam |
Synchronous online |
At the end of the semester there will be a final test of the theoretical part of the subject (S2 and S3), in which the student must demonstrate that they have acquired the skills and learning results established for these aspects. The weight of this test in the final grade will be 50% of each aspect evaluated. The material and / or documentation that can be used in the final test will be authorized by the teacher. |
30% (15% S2 y 15% S3) |
Single test |
Synchronous online |
In the SINGLE TEST modality, there will be an exam that will cover all the contents of the subject, ensuring that the student has acquired the skills and learning results established for it. |
S1, S2 y S3: 70% S4: 30% |
3. Re sources
Since all the teaching, either in the exposition lectures in large groups or in the lectures in practical groups, will be taught in a non-face-to-face way or on-site, the following resources will need to be used:
Common telematic means (teachers and students):
- PC equipment or similar.
- Videoconference system or virtual classroom, such as Google Meet or BigBlueButton.
- Use of interactive tools: screen sharing to use comments as a virtual whiteboard in PDF presentations.
- Use of the teaching platform of the University of Jaén: messaging, forums, tasks, activities and means of evaluation.
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Data Protection Delegate: dpo@ujaen.es
Purpose: In accordance with the Universities Law and other national and regional regulations in force, carrying out exams and assessment tests corresponding to the courses students are registered in. In order to avoid frauds while sitting the exam, the exam will be answered using a videoconference system, being able the academic staff of the University of Jaén to compare and contrast the image of the person who is answering the exam with the student's photographic files. Likewise, in order to provide the exam with evidential content for revisions or claims, in accordance with current regulation frameworks, the exam will be recorded and stored.
Legitimacy: compliance with legal obligations (Universities Law) and other national and regional regulations currently in force.
Addressees: service providers who are the owners of the platforms where the exams are carried out and with whom the University of Jaén has signed the corresponding data access contracts.
Storage periods: those established in current in force regulations. In the specific case of exam videoconference recordings, not before the examination records and transcripts are closed or the exam can still be reviewed or challenged.
Rights: you can exercise your right of access, amendment, cancellation, opposition, suppression, limitation and portability by sending a letter to the postal or electronic address indicated above. In the event that you consider that your rights have been violated, you may submit a complaint to the Andalusian Council for Transparency and Data Protection www.ctpdandalucia.es
Person in charge: Universidad de Jaén, Paraje Las Lagunillas, s/n; Tel.953 212121; www.ujaen.es
Data protection delegate (DPO): TELEFÓNICA, S.A.U. ; Email: dpo@ujaen.es
Procedure aim: To manage proper recordings of teaching sessions with the aim of facilitating learning process under a multimodal and/or online teaching
Period for record storage: Images will be kept during legal term according to regulations in force
Legitimacy: Data will be managed according to legal regulations (Organic Law 6/2001, December 21, on Universities) and given consent provided by selecting corresponding box in legal admission documents
Data recipients (transfers or assignments): Any person allowed to get access to every teaching modality
Rights: You may exercise your rights of access, rectification, cancellation, portability, limitation of processing, deletion or, where appropriate, opposition. To exercise these rights, you must submit a written request to the Information, Registration and Electronic Administration Service of the University of Jaen at the address above, or by e-mail to the address above. You must specify which of these rights you are requesting to be satisfied and, at the same time, you must attach a photocopy of your ID card or equivalent identification document. In case you act through a representative, legal or voluntary, you must also provide a document that proves this representation and identification. Likewise, if you consider that your right to personal data protection has been violated, you may file a complaint with the Andalusian Data Protection and Transparency Council www.ctpdandalucia.es