Part I

1. Part I New telcoinfrastructure+Services of thefuture

2. Content • 2 New telco infrastructure (2h) • 2.1 NGN/IMS: enabling new services • 2.2 IMS basics (VoIP, SIP, QoS) • 3 Services of the future (2h) (Service offering from telcos and third parties: main convergent advanced and innovative telecommunications services&applications. • 3.1 Location and context aware mobile services • 3.2 Application sectors (eg. connected car, enterprise, healthcare, digital home, communications, services over handsets…) • 3.3 Sample research lines and projects

3. 3 Ideate the Years before the competitors SERVICES of the FUTURE

4. Pioneerservicespioneros Telefónica

5. Majorservices FixedTelephony Internet (broadband) Television Mobile Telephony Sampleavailableproducts: Commercialbundles: Duo, Trio Voice: line rental, flat feesfordomestictraffic Fixedbroadband: ADSL: 6Mbps, 10Mbps, Futura fiberservices: 30&100Mbps Mobile broadband: HSDPA: 3,6/7,2/14,4 Mbps ->LTE Imagenio (IP-TV) and satelliteTV ->HD Mobile VAS: ringbacktones,… ICT Services Segments Residential Business Corporations Mobile (Latam) Telcoservices

6. Evolution towards an environment centered around the user Services with friendly interfaces and very easy to use Services adapted&customized to the necessities, tastes and preferences of each particular individual Ubiquos services that will be able to be used in any place Unique User Experience, integrated and convergent Multidevice services with multimodal interfaces Services of bidirectional super-broadband without limitations Theservices of thefuture

7. Technologies • Mobility: IMS services(Mashups Communications/External Interfaces in NGN, SCIM (Service Broker), Virtual Identitiy(VID)), Smartphones, prosumer mobiles • Usability: user experience, emotional interfaces, multi-sensorial interfaces (haptics, olfaction, taste), BCI, web interfaces (Ajax, Google Gears,…), augmented reality • Personal Communication: FMC, NGG/Overlays (high escalability), Service Virtualization, Social Technologies in Services (eg. Communications cathegorization), MANET communications , Voice Call Continuity (VCC 3GPP), Video Share (GSMA), domestic node (femtocell), IP Messaging (CPM, MSRP, XMPP), Presence(PIDF), Network addressbook (XDM) • Ambient Intelligence: Indoor positioning (RFID, NFC…), service personalization (proactive/intelligent), Wearable computing • Automotive • Home: domotic nets (protocols and sensors), residential gateway, device autoconfiguration, remote assistance (TR-069, UPnP), entertainment (Lego Mindstorms, LeJOS) and assistive robotics (iRobot, Microsoft Robotics Studio) • Enterprises: Web X.0, Software as a Service, Grid computing, ESB (Enterprise Service Bus), Semantic Web, NFC & BiDi, BPM, RSS, Mesh networks, energy savings • Teleassistance: tele-rehabilitation, PACS • Services: service engineering, service description&composition&semantics (service orchestration/coordination), service personalization and context awareness, service discovery, IMS&WS(Web Service) services, distributed services (without platforms: on top of service oriented infrastructures or net-overlays)

8. 3.1 Locationbasedservices (LBS) • Technologies: • GPS • mobile network • indoor location • RFID (short-range objects) • Some examples of location-based services are1: • Requesting the nearest business or service, such as an ATM or restaurant • Turn by turn navigation to any address • Locating people on a map displayed on the mobile phone • Receiving alerts, such as notification of a sale on gas or warning of a traffic jam • Location-based mobile advertising • Asset recovery combined with active RF to find, for example, stolen assets in containers where GPS wouldn't work • IEEE Pervasive Computing magazine: See where your friends are right now http://www.google.com/intl/en_us/latitude/intro.html Portable Navigation Devices (PNDs) (1) Wikipedia

9. 3.2 Applicationsectors Individual services. These include aspects of mobility and customization. Our activities have recently been focused on the automobile of the future and technologies related to environmental intelligence. Based on the convergence of all different types of communications, Telefónica I+D is now studying the way in which users interact with these services so that they can be adapted to suit our clients' needs. Enterprise services: Large companies and SMEs. We have set up several new lines of activity centred on designing advanced work places and the future intelligent office. Customization and interaction are the most important innovations. Home services. Our activity is based on applying new possibilities for entertainment and comfort offered by communications to the digital home. E-health services: Our activities focus on designing new services for remote assistance and rehabilitation, home hospitalization, remote collaboration between medical professionals and services for the disabled. We make innovative use of IT by offering these services in a network-centric way after they have been adapted to the different client groups' needs according to criteria of accessibility and e-inclusion.

10. Domotics

11. 3.3 AmigoAmbient Intelligence for the Networked Home Environment • R&D of interoperable middleware for a networked home environment which embraces current CE, PC, mobile and home automation domains • R&D of intelligent user services which clearly show the benefits of home networking over what is available today applying a user-centric approach • Guarantee interoperability within this home system between services even with the use of heterogeneous networking and diverse devices • Guarantee automatic dynamic configuration of the networked home system

12. EnComPAsEnabling Community Communications-Platforms and Applications • Initiative to speed up the deployment of new networked products and advanced applications or services at home through the residential gateway and home management platform. • 2 Different dimensions: Technical (application, service provisioning platforms) + User (personal, creative, social and interactive applications) • Integration and validation (technical, social…) through a Pan-European laboratory, user experiences and Field trials. • Target users: residential customers, Small Office Home Office (SOHO) and 3rd party application vendors

13. ePerSpaceTowards the era of personal services at home and everywhere • ePerSpace aimed at significantly increasing the user acceptance of networked audiovisual systems at home and anywhere • ePerSpace developed value-added personalised networked services for the Home user (in and out the Home) • ePerSpace solved some interoperability problems in personalisation data exchange, service and context adaptation, management of service platforms.

14. C@RCollaboration @ Rural • C@R aims to improve rural sector companies and workers efficiency and productivity • By introducing ICT technologies enabling collaborative environments (CWE). • Demanding advanced networking frameworks works. • Rural ICT market as a great opportunity • Qualified Population in Rural areas expected to increase. • Rural Traditional Activities (Fishery, Forestry …) & Emerging Activities (e-tourism, SMEs incubators). • From Universal Access to New Business Models in Rural and Remote Areas.

15. DaidalosDesigning Advanced network Interfaces for the Delivery and Administration of Location independent, Optimized personal Services • In a world where mobile and wireless technologies and services and growing up quickly, DAIDALOS provides pervasive services through heterogeneous networks. It integrates WLAN (802.11), 802.16, DVB-T/S/H, TD-CDMA, Ethernet (802.3) and Bluetooth based on a pure IP(v6) network to the edge • Give customers a diverse range of personalized services seamlessly and pervasively supported by the underlying technology • Establish mobility via an open, scalable and seamless integration of complementary heterogeneous network technologies including broadcast, ad-hoc, moving and sensor networks

16. 3D Video • In the edge of the technology: Assess technical and commercial viability of 3D multimedia services. • Collaborating with CE leaders with state of the art terminals: multi-terminal support (3 different terminals: 2D, 3D with and without special glasses) but always backward compatible with IPTV 2D systems and prototypes of new mobile terminals with 3D displays. • The system is based on a modular, scalable, embedded real time architecture using open-source video components.

17. MYCAREVENT • MYCAREVENT aims to provide a platform to allow independent workshops, road assistance companies and drivers access to specific technical information from the main European vehicle OEMs. • The project is focused around the different possibilities that the diffusion of this information offers in the assistance to drivers in the event of a breakdown. • Members of the consortium were selected because of their potential implication in the chain of value for the exploitation of the services derived from the project, and their capacity to contribute to the success of the project.

18. e-SENSECapturing Ambient Intelligence for Mobile Communications through Wireless Sensor Networks • The project deals with Wireless Sensor Networks (WSN), as building block of the Ambient Intelligence concept and business. • A WSN is a network of small nodes. Each node captures parameters from the environment or context, processes them and then forwards them towards a gateway by means of its radio transceiver • In a WSN the nodes are small and cheap, self organize and forward the packets (signals) towards the gateway by hopping them from a node to another • Data can be used for the provision of novel context-based services

19. WIDENSWireless Deployable Network System • To design, prototype and validate a vertically integrated rapidly deployable and scalable communication system for future public safety, emergency and disaster applications. • Create a wireless ad hoc network for Public Safety. This network allows to meet the Public Safety system requirements regarding to robustness, reconfigurability, performance, QoS, security and interoperability with existing systems.

20. AKOGRIMO Access to Knowledge through the Grid in a Mobile World • Akogrimo will produce a breakthrough in current practices for Grids with the creation of a distributed, mobile and pervasive environment to make it a business proposition for Telecom • Operators and Service Providers • Mobile Dynamic Virtual Organisations • Execution environment & Cross organisational AAA • Context propagation and adaptive Workflows • Service and quality levels • Enable cross-layer co-operation • Mobility support: different levels, core & services

21. ATICA (COLABOR@) • Collaborative working environment for Healthcare professionals located at different hospital sites, for Primary attention as well as specialists. • Integration with HIS hospital and EHR access for patients, using standards HL7, IHE & DICOM.

22. MARTA-connected car The Project MARTA has as its principle objective to study the scientific bases and technologies of transportation for the 21st century that will lead to an ITS (Intelligent Transportation System). The areas of focus for the Project include safety, efficiency, and sustainability. These issues impact society in general and are represented by global challenges in term of traffic congestion, safety, and the environmental impact of transportation.  Specifically the objective of MARTA is to foster research and development in communication between vehicles and to the infrastructure to develop technological solutions that will improve transportation. These intelligent systems of the future will contribute to reduce traffic congestion, reduce accidents, and in the event of an accident automatically contact the Emergency Services. Applied correctly the technology also exists to provide a more efficient and sustainable forms of transportation that reduce its environmental impact. In general terms MARTA will cover communication protocols, vehicle and infrastructure equipment, human-machine interface (HMI), services for the end-users, and methodologies to increase the efficiency in the traffic infrastructure as it relates to the motor vehicle http://www.cenitmarta.org

23. AmiVital: Personal digital environmentforhealth and wellbeing • The objective of AmIVital is to develop a new generation of technology and tools of information and communications for the design, implementation and operation of devices of Environmental Intelligence (AmI) whose aim is to obtain services and personal supports of the independent life, the well-being and the health. These objectives are integrated totally in the European Atmosphere concept of Vital Aid (AAL, Ambient Assisted Living)

24. VISION • This project has the objective to develop a new system of communication that allows to transmit the sensation of real presence, so that that the separated people by great distances perceive the sensation to physically be meeting in a same place. The development of the systems of communication with presence sensation, will contribute to a great extent to the reduction of the use of the transport, replacing them by virtual communications that nevertheless offer the same sensations that a actual encounter. These new capacities in the communication systems open the doors to new forms of professional relation as well as personal. It will make possible one improves already in the social and familiar relations that they will even favor the interpersonal encounter between separated people by great distances. In order to obtain this, the project will be centered in the investigation of the technologies that allow the development of the new systems of communication.

25. MIO

26. Europeanprojects

27. PhDs • ARQUITECTURA PARA LA PROVISIÓN DE CALIDAD DE SERVICIO EXTREMO A EXTREMO CON SISTEMAS SATÉLITE BASADOS EN DVB-RCS • CONTRIBUCIÓN AL ESTUDIO DE LA CALIDAD DE SERVICIO EN COMUNICACIONES DE VOIP: PROVISIÓN, ANÁLISIS DE PARÁMETROS Y NUEVAS METODOLOGÍAS DE EVALUACIÓN. APLICACIÓN A VOWLAN • CONTRIBUCIÓN AL ESTUDIO DE QOS PARA SERVICIOS MULTIMEDIA EN TIEMPO REAL SOBRE REDES IP. PROPUESTA PARA LA ADAPTACIÓN DE SATÉLITES GEOESTACIONARIOS PARA LA PROVISIÓN DE ESTOS SERVICIOS • ESTUDIO SISTEMÁTICO SOBRE EL MANTENIMIENTO PREVENTIVO DE REDES HFC Y EL RENDIMIENTO DE LAS APLICACIONES DE INTERNET A TRAVÉS DE REDES HFC • CONTRIBUCION AL ESTUDIO DE LAS REDES DE ACCESO DE BANDA ANCHA POR CABLE Y POR RADIO. PROPUESTA PARA EL MODELADO DE LOS CANALES DESCENDENTE Y ASCENDENTE DE REDES HFC • ARQUITECTURA Y PROTOCOLOS PARA IMPLEMENTACIÓN DE SERVICIOS CONTEXT-AWARE EN REDES CONVERGENTES BASADAS EN IMS

28. TIT (DEA): SupervisedResearchAssignments • Personal Multimedia Communications in Residential Environments. • QoSProvisioning for DVB System • Session Control and QoS Management in Packet Networks • VoIP en Redes Wireless (802.11 y 802.16). Estudio de Capacidad de un Acceso 802.16-2004 • Traffic Modelling for Real Time Applications • Introduccióna la creación de serviciosorientada al usuario: nuevosparadigmas y tecnologías • Voice Call Continuity (VCC): Handover entre redes GSM e IMS • Architecture for next-generation Satellite Systems with IPv6 and DVB • Devices communication in a distributed environment • Network and service management • Internal Control Framework applied to enterprise IT Service Desk. Modeling of controls with BPMN • Mecanismosde provisión de QoSextremo a extremo a nivel IP en redesNGN-IMS • Entornode Ejecución de ServiciosCompuestospor el usuario en la Web 2.0. • Descubrimientode serviciosorientado al usuario en un entornomóvil • Video-based architecture to deliver virtualized desktop sessions

29. Research Areas • Quality of service (QoS) for multimedia • Next Generation Network and Services • Traffic engineering • Broadband access networks • Service Delivery Platforms • QoS satellite architecture • Network security and privacy engineering • Service Engineering. SOA and Web Services • Context-aware systems • Virtualization and middleware • Semantic characterization and Inference