Telecommunications services  

Objectives and Contextualisation Review the architecture and protocols of telematic networks. Briefly introduce Security in services related to multimedia information Know the mechanisms of coding and storage of multimedia information Introduce the processing of multimedia information Know different transport mechanisms of multimedia information Introduce the concept of Quality of Service in multimedia networks Know some of the classic, new generation and security services related to multimedia information Competences Analyse and evaluate the social and environmental impact of technical solutions. Apply the necessary legislation in the exercise of the telecommunications engineer's profession and use the compulsory specifications, regulations and standards. Communication Design and dimension multiuser communication systems using the principles of communication theory under the restrictions imposed by the specifications and the need to provide a quality service. Develop ethics and professionalism. Develop personal attitude. Develop personal work habits. Develop thinking habits. Draft, develop and sign projects in the field of telecommunications engineering that, depending on the speciality, are aimed at the conception, development or exploitation of telecommunication and electronic networks, services and applications. Learn new methods and technologies, building on basic technological knowledge, to be able to adapt to new situations. Perform measurements, calculations, estimations, valuations, analyses, studies, reports, task-scheduling and other similar work in the field of telecommunication systems. Resolve problems with initiative and creativity. Make decisions. Communicate and transmit knowledge, skills and abilities, in awareness of the ethical and professional responsibilities involved in a telecommunications engineer's work. Work in a multidisciplinary group and in a multilingual environment, and communicate, both in writing and orally, knowledge, procedures, results and ideas related with telecommunications and electronics. Work in a team. Learning Outcomes Adapt to multidisciplinary environments. Apply the techniques in networks, services, processes and telecom applications in both fixed and mobile environments, personal, local or long distance with different band widths, including telephony, radio, television and data are based from the point of view transmission systems. Assume and respect the role of the different members of a team, as well as the different levels of dependency in the team. Communicate efficiently, orally and in writing, knowledge, results and skills, both professionally and to non-expert audiences. Consider and evaluate different technical solutions for the provision of telecommunications services and select those that offer adequate commitment to social and environmental impact. Construct, operate and manage networks, services, processes and telecom applications, understood these as systems of recruitment, transportation, representation, processing, storage, management and presentation of multimedia information, from the point of view of the transmission systems. Critically evaluate the work done. Develop critical thinking and reasoning. Develop curiosity and creativity. Develop independent learning strategies. Develop the capacity for analysis and synthesis. Differentiate and understand the significance of measurements and assessments of telecommunications networks to Formenta and ensure their optimal design. Discuss and apply cryptography systems aimed at improving the safety of a telecommunication network. Discuss in multidisciplinary groups knowledge, procedures, results and ideas related to telecommunications networks and services. Distinguish the different nature of the problems of dimensioning and routing for each of the different types of networks and make decisions and initiatives to improve the operation and provision of telecommunications networks. Efficiently use ICT for the communication and transmission of ideas and results. Evaluate the advantages and disadvantages of different conceptual and technological options for different telecommunication applications. Manage available time and resources. Manage networks, services, processes and telecom applications according to the laws and regulations both domestically and internationally. Recognize telecommunication services, based on the feedback systems, transport, representation, processing, storage, management and presentation of multimedia information. Respect diversity in ideas, people and situations. Use communication and computer applications (office automation, databases, advanced calculation, project management, display, etc.) to support the development and exploitation of telecommunication and electronic networks, services and applications. Work autonomously. Work cooperatively. Content The course is divided into 7 subjects, which revolve around multimedia information systems and services: Presentation Introduction Layer architecture Network interconnection Classification of networks Security Introduction Threats and Protection of resources Basic cryptography Symmetric key cryptography Public key cryptography Digital signature No denial Summary of techniques Secure communication protocols Secure email Key management Public key infrastructure (Public-key Infrastructure, PKI) Multimedia Information Introduction Data Audio Images Video Compression Performance Information Processing Introduction The Client/Server model Distributed data processing Distributed data Additional considerations Information Transport Introduction Internet architecture Quality of Service in Multimedia Networks Introduction Quality of Service Error control Flow control Congestion control Queue management Multimedia support in networks Services Introduction Classic services Email HTTP Multimedia services Content distribution networks Real-time Transport Protocol (RTP) Real-time video playback Voice over IP (VoIP) New generation services Intranets/Extranets Service-oriented architectures Grid computing and Cloud computing Opportunistic Networks (OppNet) Security services Secure Sockets Layer (SSL/TLS) Virtual private networks (VPN) Firewall Intrusion detection systems Cryptocurrencies Tor
Presential
English
Telecommunications services
English

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