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Syllabus 2019-20 - 14312011 - Fundamentals of Radiocommunications (Fundamentos de radiocomunicaciones)
- 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 de telecomunicación (14312011) |
FACULTY: | SCHOOL OF ENGINEERING OF LINARES |
DEGREE: | Doble Grado Ing. de tecnologías de la telecomunicación e Ing. telemática (15212016) |
FACULTY: | SCHOOL OF ENGINEERING OF LINARES |
ACADEMIC YEAR: | 2019-20 |
COURSE: | Fundamentals of Radiocommunications |
NAME: Fundamentals of Radiocommunications | |||||
CODE: 14312011 (*) | ACADEMIC YEAR: 2019-20 | ||||
LANGUAGE: English | LEVEL: 1 | ||||
ECTS CREDITS: 6.0 | YEAR: 3 | SEMESTER: PC |
NAME: RECHE LÓPEZ, PEDRO JESÚS | ||
DEPARTMENT: U134 - INGENIERÍA DE TELECOMUNICACIÓN | ||
FIELD OF STUDY: 800 - TEORÍA DE LA SEÑAL Y COMUNICACIONES | ||
OFFICE NO.: D - D-143 | E-MAIL: pjreche@ujaen.es | P: 953648558 |
WEBSITE: http://www4.ujaen.es/~pjreche/ | ||
ORCID: https://orcid.org/0000-0002-5417-3551 | ||
LANGUAGE: - | LEVEL: 1 |
THEORETICAL CONTENTS:
Introduction to radiocommunication systems. Noise in radiocommunication systems. Foundations of electromagnetic radiation and antennas. Power budget in radiocommunications. Radio propagation mechanisms.
PRACTICAL CONTENTS:
Propagation loss methods. XIRIO online. Antenna simulation.
Lecture (Theory) |
2 |
Hours per week |
Lecture (Practice): |
2 |
Hours per week |
Seminars: |
- |
Hours per week |
Homework: |
4 |
Hours per week |
A1. Lectures with big group of students
They are based in the explanation of the theory concepts, exercises and practical problems of the course.
All the contents of the subject appear in English in the bibliography. Moreover, exists plenty of information available in Internet.
A2. Lectures with practical groups
They are developed in the lab, and they are based on the implementation of Matlab applications by the students.
A3. Collective tutorial classes
They are based on seminars and doubt resolution of the students.
The use of electronic devices in classes and exams is forbidden except that they are required for the right development of learning activities and always with the authorization of the lecturer.
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
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
OVERALL EVALUATION
This assessment method is organised according to the activities described in the previous table. The evaluation process consists of:
- The evaluation of the tasks defined in the Teaching Guide during the Teaching period.
- A final Written Exam during the Examination period.
The assessment aspects evaluated in both parts and their contribution to the final mark are summarized in the following table:
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% |
Marks obtained during the Teaching period (as a record of the continuous evaluation process) will be kept until the end of the academic year.
Written Exam
The students have to make a Written Exam that assesses the theoretical and operating aspects of the subject (S2 and S3) at the end of the semester (at the date established in the examination period). This final evaluation is made to assess the extent to which the students have acquired all the competences and learning outcomes established for those aspects. The weight of this exam is the 50% of each of the evaluated aspects (S2 and S3).
Any books, notes, documentation, or equipment allowed for this Final Exam have to be approved by the lecturer.
Final assessment
The students must obtain a mark higher or equal to 4 (out of 10) in S4 to keep this evaluation method (Laboratory or computer practical work). The students will pass the subject through this evaluation method by getting a mark higher or equal than 5.0 out of 10 in the overall result (continuous evaluation and written exam), but with the condition of obtaining a mark higher or equal to 4.0 in the Written Exam and in S4.
FINAL EXAM EVALUATION
This kind of evaluation is based in only one written exam that evaluates all the aspects of the subject, by assessing the students´ acquisition of all the competences and learning outcomes established in the subject. This exam will take place during the Examination period on a date established by the centre. The final exam is weighted in the following way:
- Attendance and participation (S1), theoretical concepts (S2) and Exercises, problems and study cases (S3): 70%.
- Laboratory and computer practical work (S4): 30%.
In order to pass the subject, the student must have marks higher or equal to 5.0 out of 10 at each part of the final exam.
The students who have already fulfil the requirements of aspect S4 (Laboratory or computer practical work) through the OVERALL EVALUATION, by obtaining a mark higher or equal to 5.0 out of 10 do not have to make this part in the FINAL EXAM evaluation.
Those aspects successfully completed with a mark higher or equal to 5.0 will be considered passing during that academic year.
Using this approach, the following competences will be evaluated:: C15, CB2, CB3, CB4, CB5, CG2, CG4, CG5, CG6, CG9, ST1, ST2, ST3, ST4 and ST5.
Obtaining a positive evaluation indicates that the student has reached the following learning results of the module: 1, 2, 3, 4, 5, 6, 7, 9, 11, 12, 13, 14, 15, 16, 17, 20, 21 and 22.
The use of electronic devices in classes and exams is forbidden except that they are required for the right develoment of learning activities and always with the authorization of the lecturer
- Antennas and radiowave propagation. Edition: -. Author: Collin, Robert E.. Publisher: New York [etc.]: McGraw-Hill, cop. 1985 (Library)
- Introduction to RF propagation. Edition: -. Author: Seybold, John S.. Publisher: Hoboken (New Jersey): John Wiley, cop. 2005 (Library)
- Antenna theory: analysis and design. Edition: 3rd ed.. Author: Balanis, Constantine A.. Publisher: New York [etc.] : John Wiley, cop. 2005 (Library)
- Radio Wave Propagation [Recurso electrónico] : An Introduction for the Non-Specialist. Edition: -. Author: Richards, John A.. Publisher: Berlin, Heidelberg : Springer-Verlag Berlin Heidelberg, 2008. (Library)
- Radio Wave Propagation for Telecommunication Applications [Recurso electrónico] . Edition: -. Author: Sizun, Hervé.. Publisher: Berlin, Heidelberg : Springer-Verlag Berlin Heidelberg, 2005. (Library)