| Study programme competencies |
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Code
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Study programme competences
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| A53 |
Capacidade para seleccionar, deseñar, despregar, integrar, avaliar, construír, xestionar, explotar e manter as tecnoloxías de hárdware, sóftware e redes dentro dos parámetros de custo e calidade adecuados. |
| A55 |
Capacidade para seleccionar, deseñar, despregar, integrar e xestionar redes e infraestruturas de comunicacións nunha organización. |
| B1 |
Capacidade de resolución de problemas |
| B3 |
Capacidade de análise e síntese |
| C3 |
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. |
| C4 |
Desenvolverse para o exercicio dunha cidadanía aberta, culta, crítica, comprometida, democrática e solidaria, capaz de analizar a realidade, diagnosticar problemas, formular e implantar solucións baseadas no coñecemento e orientadas ao ben común. |
| C6 |
Valorar criticamente o coñecemento, a tecnoloxía e a información dispoñible para resolver os problemas cos que deben enfrontarse. |
| C8 |
Valorar a importancia que ten a investigación, a innovación e o desenvolvemento tecnolóxico no avance socioeconómico e cultural da sociedade. |
| Learning aims |
| Learning outcomes |
Study programme competences |
| Know aspects related to the design, administration and management of computer equipment in the network, as well as their involvement in the implementation of systems and network services. |
A53
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| Ability to select, design, deploy, integrate and manage communications networks and infrastructures in an organization. |
A55
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| Ability to solve problems. Critically assess the knowledge, technology and information available to solve the problems they must face. |
|
B1
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C6
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| Capability for analysis and synthesis.
The student will be able to analyze communication project requirements and propose solutions, performing works where they will synthesize the knowledge acquired during the course |
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B3
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| Use the basic tools of information and communication technologies (ICT) necessary for the exercise of their profession and for learning throughout their lives. They will learn to use their own tools of network administration. know to do. |
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C3
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| Develop for the exercise of an open, cultured, critical, committed, democratic and supportive citizenship, capable of analyzing reality, diagnosing problems, formulating and implementing solutions based on knowledge and oriented to the common good. |
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C4
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| Critically assess the knowledge, technology and information available to solve the problems they must face. |
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C6
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| Assess the importance of research, innovation and technological development in the socio-economic and cultural progress of society |
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C8
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| Contents |
| Topic |
Sub-topic |
| 1. Network Design |
Separación física e loxica de redes: vlans, subnetting e routing
alta dispoñibilidade |
| 2. Network Security |
Sistemas de Firewalls
Prevención de intrusión
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| 3. Network Management |
Plano de xestión
Syslog
SNMP
Netflow
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| 4. New approaches to ICT |
Automatización
SDN
NFV
QoE
IoT
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| Planning |
| Methodologies / tests |
Competencies |
Ordinary class hours |
Student’s personal work hours |
Total hours |
| Guest lecture / keynote speech |
A53 A55 C4 C8 |
21 |
48 |
69 |
| ICT practicals |
A53 A55 B1 C3 C6 |
16 |
32 |
48 |
| Objective test |
A53 A55 B1 |
3 |
0 |
3 |
| Supervised projects |
B1 B3 C3 C6 |
7 |
21 |
28 |
| |
| Personalized attention |
|
2 |
0 |
2 |
| |
| (*)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 |
In which the theoretical content of the syllabus will be exposed, including illustrative examples and with the support of audiovisual media. The student will have the support material (notes, copies of the slides, articles, etc.) beforehand and the teacher will promote an active attitude, recommending the previous reading of the topics to be discussed each day in class, as well as asking questions that allow to clarify concrete aspects and leaving open questions for the reflection of the student.
The magisterial ideas will be complemented with the realization of conferences in which an external expert will be brought to discuss some topic in greater depth. |
| ICT practicals |
In which the student will see the operation in practice of some of the theoretical contents seen in the lectures. In these practices, the student will use different tools (network simulators, monitoring tools, etc.) proposed by the professor, which will allow them to deepen and consolidate their knowledge about different aspects of network management.
The practices will be presented in a way that facilitates their semi-face-to-face realization to those students who can not attend the face-to-face sessions. In addition to the basic practices that all students will have to do, additional practices that interested students can do optionally will be proposed. |
| Objective test |
At the end of the exposition of the subject, a test type will be carried out that will allow to assess the theoretical knowledge and practical skills acquired during the evolution of the course |
| Supervised projects |
Proposal of works for their individual and non-face-to-face resolution by the students. These works will be opiconal and will allow students interested in doing them, to deepen into the content of the topics that are of special interest to them and that could not be dealt with in sufficient detail during the lectures. |
| Personalized attention |
|
Methodologies
|
| ICT practicals |
| Supervised projects |
|
| Description |
The personalized attention during the practices will serve to guide and verify the work that the students are doing according to the indications that are provided to them, depending on the concrete practice in question.
To carry out the supervised works, the teachers will provide the necessary initial indications, bibliography for consultation and will monitor the progress made by the student, in order to offer the relevant guidelines in each case, in order to ensure the quality of the works according to the criteria that are indicated.
All the teachers of the subject will also propose a tutorial schedule in which the students will be able to answer any questions related to the development of the same. Students will be advised to attend tutorials as a fundamental part of learning support.
It will facilitate the completion of practices and attention in the tutoring of work to students who, because they are enrolled part-time can not attend practical sessions or officially established tutoring sessions. |
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| Assessment |
|
Methodologies
|
Competencies |
Description
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Qualification
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| ICT practicals |
A53 A55 B1 C3 C6 |
The practices of the subject will consist of different activities related to Network Management. A defense of the practices will be carried out to assess the level of understanding and the work developed by the student |
45 |
| Supervised projects |
B1 B3 C3 C6 |
The tutored works will be optional and on a subject to be arranged between the student and the professor. |
10 |
| Objective test |
A53 A55 B1 |
At the end of the exposition of the subject, an objective test type test will be carried out on the treated contents, both in the theoretical sessions and in the practical ones. |
45 |
| |
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Assessment comments |
To pass the subject, it will be necessary to obtain a minimum of 40% of the total mark in the objective test and in the practices. If not, the maximum grade that can be obtained is 4.5. STUDENTS ENROLLED TO PARTIAL TIME: They must contact the professors of the subject to make it possible to carry out the tasks outside the regular organization of the subject. |
| Sources of information |
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Basic
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Anthony Bruno; Steve Jordan (2016). CCDA 200-310 Official Cert Guide, Fifth Edition. Cisco Press
Wendell Odom (2016). CCENT/CCNA ICND1 100-105 Official Cert Guide. Cisco Press
William Stallings (2015). Foundations of Modern Networking: SDN, NFV, QoE, IoT, and Cloud. Addison-Wesley Professional
Michael Meyers (2009). Managing and Troubleshooting Networks. McGraw Hill
William Stallings (1999). SNMP, SNMPv2, SNMPv3 and RMON1 and 2. Prentice Hall Engineering
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Complementary
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| Recommendations |
| Subjects that it is recommended to have taken before |
| Internet and Distributed Systems/614G01023 | | Infrastructure Management/614G01025 |
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| Subjects that are recommended to be taken simultaneously |
| Administration of Infrastructures and Information Systems/614G01093 | | Operating Systems Administration/614G01212 |
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| Subjects that continue the syllabus |
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