Guía Docente 2020-21
SEGURIDAD EN REDES Y SISTEMAS

BASIC DETAILS:

Subject: SEGURIDAD EN REDES Y SISTEMAS
Id.: 30086
Programme: GRADUADO EN INGENIERÍA INFORMÁTICA. PLAN 2008 (BOE 15/12/2008)
Module: COMUNICACIONES
Subject type: OBLIGATORIA
Year: 4 Teaching period: Segundo Cuatrimestre
Credits: 6 Total hours: 150
Classroom activities: 63 Individual study: 87
Main teaching language: Inglés Secondary teaching language: Castellano
Lecturer: Email:

PRESENTATION:

Currently, Information Systems Security (Infosec) has passed to be an area attached to others, as applications development or network management, to become an area by itself. In the same way, several years ago security was managed by very specificall applications related with cryptography and mathematic models or security experts but today, terms such as digital certificate, digital signature or secure protocols are managed or at least known by network managers and end users.

We must value that new models on security services must be part of the Information Society and, therefore, the professionals involved in the design of solutions in this field must guarantee the properties of the security.

In this context, it is intended that the subject "Seguridad en Redes y Sistemas" allows the student to address the main processes of designing secure systems, including the techniques, methodologies and services.

PROFESSIONAL COMPETENCES ACQUIRED IN THE SUBJECT:

General programme competences G02 Innovative capacity to propose and find new and efficient ways to undertake any task and/ or function within the professional environment - highly motivated by quality.
G04 Capacity to always commit to working responsibly - creating a strong sense of duty and fulfilment of obligations.
G06 Capacity to analyse and find a solution to complex problems or unforeseen situations which may arise while working in any type of socio-economic organisation.
G10 Critical and analytical capacity when assessing information, data and courses of action.
G12 Capacity to undertake professional activities with integrity, respecting social, organisational and ethical norms.
G14 Capacity for abstraction to handle various complex knowledge models and apply them to examining and solving problems.
Specific programme competences E01 Capacity to understand the engineering profession and commitment to serve society under the corresponding professional code of conduct.
E10 Capacity to understand and assess the impact of technology on individuals, organisations, society and the environment, including ethical, legal and political factors, recognising and applying the pertinent standards and regulations.s éticos, legales y políticos, reconociendo y aplicando los estándares y regulaciones oportunos
E11 Capacity to remain up-to-date in the technological and business worlds in the area of information and communication technologies.
E13 Capacity to identify, assess and use current and emerging technologies, considering how they apply in terms of individual or organisational needs.
E19 Capacity to design and define the architecture of IT systems (software, hardware and communications) under the requirements agreed upon by the parties involved.
Learning outcomes R01 Tackle design processes for secure systems.
R02 Use methodologies and systems whose purpose is guaranteeing information security.
R03 Apply network security measures and provide solutions in terms of firewalls, intrusion detection, etc.
R04 Develop applications that are secure from viruses and intrusions.
R05 Understand PKI and key public infrastructure.

PRE-REQUISITES:

"Sistemas operativos"; "Administración de sistemas operativos"; "Administración de servidores"

SUBJECT PROGRAMME:

Subject contents:

1 - Introduction to Information Security Systems
    1.1 - Introduction
    1.2 - Definitions and different views
    1.3 - Properties and services
    1.4 - Network and OS security
2 - Secure systems design
    2.1 - Introduction
    2.2 - PKI: Public Key Infrastructure
    2.3 - IBS and PGP
3 - Attacks and viruses
    3.1 - Attacks
    3.2 - Viruses

Subject planning could be modified due unforeseen circumstances (group performance, availability of resources, changes to academic calendar etc.) and should not, therefore, be considered to be definitive.


TEACHING AND LEARNING METHODOLOGIES AND ACTIVITIES:

Teaching and learning methodologies and activities applied:

Lectures will be used to present the content of the different topics of the subject. Also several readings will be used to promote the debate of the different parts of the subject.

Practical work sessions are not carried out in strict order. They will be organized according to the themes presented and the evolution of the proposed works. Each type of sessions are designed for the development of the competences that the student must acquire in the subject.

Student work load:

Teaching mode Teaching methods Estimated hours
Classroom activities
Master classes 27
Practical exercises 30
Debates 2
Assessment activities 4
Individual study
Tutorials 5
Individual study 6
Individual coursework preparation 15
Group cousework preparation 15
Research work 10
Compulsory reading 18
Recommended reading 18
Total hours: 150

ASSESSMENT SCHEME:

Calculation of final mark:

Written tests: 30 %
Individual coursework: 50 %
Group coursework: 20 %
TOTAL 100 %

*Las observaciones específicas sobre el sistema de evaluación serán comunicadas por escrito a los alumnos al inicio de la materia.

BIBLIOGRAPHY AND DOCUMENTATION:

Basic bibliography:

Reference material (subject slides and notes) will be upload to pdu.usj.es

Recommended bibliography:

Adams, C, and S Farrell. “RFC 2510 - Internet X.509 Public Key Infrastructure Certificate Management Protocols,” 1999.http:/ / tools.ietf.org/ html/ rfc2510.
Aguirre, Jorge Ramió. Libro Electrónico De Seguridad Informática y Criptografía. UPM, 2006.http:/ / www.criptored.upm.es/ guiateoria/ gt_m001a.htm.
Gómez, J; Villar, E y Alcayde, A.: Seguridad en Sistemas Operativos Windows y GNU/ Linux\\; 2ª Edición,2011
IBM Redbooks. Implementing PKI Services on z/ OS, 2004. http:/ / www.redbooks.ibm.com/ abstracts/ SG246968.html?Open.
OpenCA Team. The Open–source PKI Book, 2000. http:/ / sourceforge.net/ projects/ ospkibook/ files/
PKIX Working Group. “Public-key Infrastructure (X.509) (pkix),” 2004. http:/ / www.ietf.org/ html.charters/ pkix-charter.html.
Zurawski, R. "The Industrial Information Technology Handbook" 2004

Recommended websites:

Kali Linux Revealed https://kali.training/downloads/Kali-Linux-Revealed-1st-edition.pdf


* Guía Docente sujeta a modificaciones