laboratory for telecommunications · 5 © copyright ltfe 2006. all rights reserved. contents in the...
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© Copyright LTFE 2006. All rights reserved.
Laboratory for Telecommunications
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CONTENTS IN THE DIRECTION OF KNOWLEDGE ......................................................................7 THE PRESENTATION OF THE LABORATORY FOR TELECOMMUNICATIONS.............8 CONTACT ...............................................................................................................11 PRESENTATION .....................................................................................................12 CONTENTS .............................................................................................................15 1 TRAININGS .....................................................................................................15 1.1 NGN Academy.................................................................................................... 15 1.2 Fixed Mobile Convergence .................................................................................. 23 1.3 Multimedia Systems and Services ........................................................................ 25 1.4 Cisco Networking Academy ................................................................................. 28
2 WORKSHOPS...................................................................................................30 2.1 TCP/IP .............................................................................................................. 30 2.2 IP Routing ......................................................................................................... 31 2.3 MPLS I .............................................................................................................. 32 2.4 MPLS II ............................................................................................................. 33 2.5 IPv6 I................................................................................................................ 34 2.6 IPv6 II .............................................................................................................. 35 2.7 IP Multicast........................................................................................................ 36 2.8 Security in Telecommunications .......................................................................... 37 2.9 Telecommunications Management....................................................................... 38 2.10 Virtual Private Networks ..................................................................................... 39 2.11 Protocols in Telecommunications......................................................................... 40 2.12 SIP.................................................................................................................... 41 2.13 IMS................................................................................................................... 42 2.14 IMS and ETSI TISPAN NGN................................................................................. 43 2.15 SS7 Signalling .................................................................................................... 44 2.16 NGN Signalling ................................................................................................... 45 2.17 SIGTRAN ........................................................................................................... 47 2.18 Service Development in NGN and IMS ................................................................. 48 2.19 Mobile Systems and Services............................................................................... 49 2.20 Mobile Data Transfer .......................................................................................... 50 2.21 Wi-Fi, Wi-Max and Mobile-Fi................................................................................ 51 2.22 Wi-Max.............................................................................................................. 52 2.23 Convergence in Telecommunications ................................................................... 53 2.24 Convergent Multimedia Services .......................................................................... 54 2.25 VoIP and Skype ................................................................................................. 55 2.26 Audio and Video Transmission in Convergent Networks......................................... 56 2.27 3Play and 4Play ................................................................................................. 57 2.28 Video and Audio for Residential Environment ....................................................... 58 2.29 Hardware and Software ...................................................................................... 59 2.30 Linux................................................................................................................. 60 2.31 PHP................................................................................................................... 62
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2.32 Java I................................................................................................................ 63 2.33 Java II............................................................................................................... 65 2.34 Project Management and Communication in Research and Development................ 67 2.35 Sociological and Psychological Aspects of Telecommunications .............................. 68 2.36 E-learning Content Development ......................................................................... 69 2.37 Pedagogical Support in E-learning ....................................................................... 70
3 E-LEARNING....................................................................................................71 3.1 Laboratory for Telecommunications E-learning ..................................................... 71 3.1.1 The Suite of TCP/IP Communication Protocols................................................ 71 3.1.2 Fundamentals of Internet ............................................................................. 72 3.1.3 Mobile Technologies..................................................................................... 73 3.1.4 NGN and IMS............................................................................................... 74
3.2 E-learning Provided by Our Partners .................................................................... 75 3.2.1 Telecommunications..................................................................................... 75 3.2.2 Information Technologies ............................................................................. 76 3.2.3 Business and Management ........................................................................... 77 3.2.4 Basic Digital Literacy – ECDL......................................................................... 78
4 MULTIMEDIA IN MODERN TRAINING ............................................................79 5 SERVICES, SOLUTIONS AND PROJECT COORPERATION ................................80 6 PRODUCTS ......................................................................................................81 6.1 E-CHO............................................................................................................... 81 6.2 SMS Chat........................................................................................................... 82 6.3 SMS Voting ........................................................................................................ 83 6.4 Communication Add-Ins...................................................................................... 84
ACRONYM LIST......................................................................................................85 LOCATION .............................................................................................................93
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IN THE DIRECTION OF KNOWLEDGE
Knowledge, swift and up-to-date access to the information and the capacity and capability of proper information evaluation are those factors which enable success opportunities, surpluses and break-throughs. To presume that the era of great inventions and great inventors is something that took place only once in the past is wrong. Everyone can do well or even be the best in their own field. However, nowadays the most notable achievements require, besides talent and inherent abilities, a larger input of work, innovative approach and energy. Knowledge life expectancy is rapidly becoming shorter, the activity of once in a lifetime study is being replaced by the process of life-long education. Even focused top expert knowledge requires a broader intelectual range and multidisciplinary linkage. Being able to offer a comprehensive integrated solution at the appropriate time is the key asset of successful research and development institutions and companies. Laboratory for Telecommunications at the Faculty of Electrical Engineering operates on principles described above. The direction of knowledge interweaves with project work and entrepreneur challenges and is being complemented with multimedia training. We are able to maintain this mode of operation thanks to the experienced team of laboratory associates from various fields of expertise, long standing pedagogical experience, numerous successfully implemented projects, excellent conditions and equipment for research and development topped with 60 years of presence and experience in the field of ICT in Slovenia. We would like to present our comprehensive offer to you. There are always new, unexplored ways, unknown possibilities and unidentified challenges. The start of a cooperation is always a great new opportunity and therefore I wish we could perhaps mutually carry it into effect. prof. dr. Janez Bešter, Head of the Laboratory for Telecommunications
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THE PRESENTATION OF THE LABORATORY FOR TELECOMMUNICATIONS
In 2006, the Laboratory for Telecommunications at the Faculty of Electrical Engineering celebrates its 60th anniversary, which makes it the oldest laboratory of the kind in Slovenia. The laboratory has been cooperating with companies on disciplinary projects for many years and at the same time it is also internationally successful. The research of the Laboratory comprises a few interdisciplinary fields: traffic measurements, traffic theory, simulations of network commutation and routing of real and synthetic traffic, the quality of service mechanisms in data transfer of audio and video of traffic through wire and wireless IP networks, the security in IP and mobile systems, the use of telecommunication and information technology applications for users with special needs. The project work of research of information technological systems and services is based on all essential telecommunication technologies: IP, xDSL, MPLS, CATV, GSM, GPRS, UMTS, Wi-MAX, SS7, SIP, XML etc. The key field of work is planning and developing of signalling number 7, converged services and multi-access portals which are based on fixed, mobile, IP and voice platforms. A special attention of research, development and implementation is focused on the role of telecommunication and network technologies in e-learning.
INTRODUCING THE CO-WORKERS There are over 45 permanent, temporary and external co-workers involved in the work of the Laboratory. Most of them work on the fields of telecommunications, IT, computer and electrotechnical engineering and they all take part in the Laboratory trainings. The Laboratory members are also Hevreka! and VITEL members, i.e. the international events which are linked with the international test laboratory SINTESIO, and they also take part in other international workshops and conferences. Their expertise and constant trainings are reflected in final quality and efficiency of development, research and educational work.
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The Laboratory for Telecommunications is a member of Telemanagement Forum organization and its co-workers cooperate with the following organizations: IEEE, ComSoc, SINTESIO (ETSI), IEICE, ACM, AACE, AAATE, IFIP and ITU-T.
PRESENTATION OF THE LECTURE ROOMS
Multimedia room The multimedia room, which was built in 2006, is on the ground floor of the Faculty of Electrical Engineering. It is furnished with the most up-to-date equipment. In the room there is a desk for 22 people, and by using extra desks it can host up to 40 people. Each place is equipped with fixed and wireless broadband Internet access and if required laptops can be provided. Lecturers have two projectors and separate screens at their disposal and projection is possible from any location in the room. The big board, hand- and head microphone, the soundsystem and the DVD and VHS players can also be used. There is a conference system with 18 places for consulting and conferences where speakers can use microphones and audio and video recordings of events are also possible. By using the video-conference it is possible to connect up to four different locations at the same time. The room is air-conditioned. If required it can also be used as a digital multi-camera studio.
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Diploma room The Adiploma Aroom AAis Aon Athe Asecond Afloor Aof Athe Anew Abuilding Aof Athe AFaculty Aof AElectrical Engineering. The room is the venue for trainings, diploma, master's degree, Ph. D. thesis defenses. The room can host up to 20 people. Wireless Internet access is guaranteed. Lecturers can use the ceiling projector and the big board.
Laboratory for Telecommunications The Laboratory for Telecommunications is on the fifth floor of the new building of the Faculty of Electrical Engineering. The Laboratory is the venue for laboratory tutorials, demonstrations, trainings and lectures for smaller groups. In the Laboratory there are 15 first-class equipped working places and the extention to 20 working places is also possible. Each working place is equipped with several fixed broadband Internet connections and various laboratory equipment. Wireless access to the Internet is guaranteed. Lecturers can use ceiling projector and the big board.
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CONTACT
Assistant professor Andrej Kos
The University of Ljubljana
The Faculty of Electrical Engineering The Laboratory for Telecommunications
Tržaška cesta 25SI-1000 Ljubljana
Telephone: + 386 1 47 68 888 Fax: + 386 1 47 68 732
Email: [email protected] Web: http://lt.fe.uni-lj.si, http://www.ltfe.org
Andrej Kos is an Assistant Professor at the Faculty of Electrical Engineering. He is the head of many interdisciplinary development and research projects and trainings which are organized by the Laboratory for Telecommunications. Both pedagogical as well as research fields are his expertise and together they represent new challenges and task accomplishments. He is focused on planning, realization and managing broadband and mobile telecommunication systems, services and contents.
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PRESENTATION
TRAININGS Together with its co-workers and by cooperating with companies the Laboratory for Telecommunications prepares and carries out various trainings. As far as contents, difficulty and duration go the programmes are adjusted to individual client so they include basic telecommunication and information technology knowledge and the most up-to-date development and research techniques. The first-class equipped laboratory and the applications of classical and modern multimedia methods of training in laboratories and the Internet enable to acquire quality knowledge and practical experience in various telecommunication and information technology fields. By cooperating with top experts from all over the world these trainings are connected with international trends.
Classical educations Classical educations are divided into trainings (complete trainings consisting of a great number of contents and last more days) and workshops (oriented trainings consisting of contents which comprise explicit topics and they last one or two days). The trainings comprise more complementary modules of individual workshops. Both versions of classical educations include:
o lectures, o demonstrations, o laboratory work.
ICT Academy The ICT Academy is an initiative and training activity. Within the academy lectures are given by distinguished Slovenian and international business and university experts. Above all the contents of lectures comprise presentations of current development and research themes, achievements and visions for development, good practice examples etc. This is carried out together with the Technology network ICT (http://www.ict-slovenia.net).
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E-learning E-learning is an effective method which successfully completes traditional forms of training. Its advantage is time and location flexibility. When attending e-learning personal computer with the Internet connectivity is needed. E-learning can include access to multimedia educational contents and independent learning, pedagogical and expert mentor support during the courses and simultaneous knowledge checking. Training is carried out by using the management e-learning system (http://dl.ltfe.org), which includes users' monitoring. At the end of trainings the participants are given certificates. The key activities in the field of e-learning are:
o performing e-learning, o offering our own and access to other e-learning contents, o mentor support, o guesting e-learning services, o complex sollutions in the field of introducing and using of e-learning.
In the Laboratory, e-learning services have been carried out for more than a decade hence it has a lot of experience.
Multimedia and modern training Nowadays multimedia support is getting more and more importance because it offers the use of modern multimedia technologies and publication of contents in different media. By the help of expert team multimedia support of trainings, lectures, seminars and conferences are offered. The multimedia room with first-class equipment can host up to 40 participants and for more difficult lectures an equipment operator is at disposal. In the room there is a TV studio so that lectures can be recorded, processed and prepared for publication in different media.
Combination The best results are achieved by combining of previously listed ways of training. That is why organization of classical trainings, workshops, seminars and conferences with multimedia support is offered and the e-learning material is created simultaneously. The organization of such events can include:
• organization of classic lectures in the most modern multimedia room, • including distant locations by video conference, • recording of lectures by using digital technology,
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• synchronization of recordings with additional material (e.g. PowerPoint slides), • live transmission of lectures on the Internet, • material publication on multimedia web portal and in the e-learining system, • the recording and material edition on a CD or DVD.
Training scenario, contents and ways of realisation are entirely adaptable.
SERVICES, SOLUTIONS AND PROJECT COORPERATION The Laboratory for Telecommunications is active in various research and development fields in telecommunications and information technologies. That is also the reason for offering different services, solutions and contents. The planning of network solutions, testing, measurements, technological and market analysis, e-learning, studies and counselling also comprise a close cooperation of experts and clients and by considering the actual state, needs, requirements and visions optimal adaptation and quality results are guaranteed. The cooperation in these fields is project work. The model of project cooperation, laboratory work and parallel interdisciplinary training is also possible.
PRODUCTS In the field of its own product and contents development the focus of the Laboratory lies on protocol development, converged fixed and mobile applications, advanced user applications from the next generation network concept, setting up training systems with planning and appropriate contents development, solutions and setting up pilot projects. The offer which is adapted to the customer's needs follows the most modern telecommunication and information technology directives as well as key requirements and it excels in innovation, careful planning and it is user friendly. The cooperation in these fields is project work. The model of project cooperation, laboratory work and parallel interdisciplinary training is also possible.
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CONTENTS
1 TRAININGS In the catalogue, there are listed some examples or suggestions for trainings.The contents, duration, proportion and difficulty of lectures and laboratory work are flexible and can be accustomed to the customer's needs.
1.1 NGN Academy
Code: T0001D16v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level: Structure: l 60 d 5 w 25 e 0
Duration: 16 daysContents: ▪ Classic telecommunications and convergence
o Information infrastructure o Telecommunication trends: economic, technological, regulative
▪ Overview of existent ICT systems and services o Fixed and internet systems o Classic telephone systems: PSTN, ISDN o Transfer technologies: optical networks, WDM, SDH, PDH, ATM o Local and metro networks: LAN, MAN, Ethernet, MetroEthernet o Access technologies: xDSL, CATV, LMDS o Mobile and wireless systems
▪ Standardization in telecommunications o ISO standards and classification o De iure – de facto o Importance of standards on telecommunication area o International, national, industrial o Standardization procedures o Important standardization organizations o Standards accessability
▪ Telecommunication basics o Analog and digital transfer, comparison o Signal types o Transfer medium, characteristics: frequency band, power,
excitation, dispersion, echo, price, radio, symmetric pairs, coax, strip, optical wires, data and packet transfer
▪ Classification and characteristics of transfer modes: connection oriented, connectionless, circuit, packet, synchronous, asynchronous transfer
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▪ Protocols o Basic terms: service, user, server, access point o Protocol, protocol entities, protocol messages, protocol stack o Main protocol mechanisms: synhronization, reliable data transfer,
error detection and error correction (coding, FEC, BEC), connection management, flow and congestion control, segmentation and reassembly, addressing, routing, session management, presention layer functionality, application support
o Protocol specification: formal, informal o Protocol implementation: HW, SW, manual, automatic
▪ Network topology o Star, ring, mesh, mixed o Characteristics, comparison
▪ Packet system basics o Connection oriented, connectionless o Circuit switched, packet switched o OSI and TCP/IP protocol stackl o SAP o Transmission technique
▪ Ethernet o Development, addressing o Collision domain, broadcast domain o Ethernet devices, repeater, hub, bridge, switch, router o VLAN o STP, RSTP, MSTP
▪ IP protocol o Addressing, CIDR, VLSM o ISMP, TCP and UDP protocol o Application, services, tools: telnet, HTTP, DNS, FTP, TFTP, SMTP,
POP, IMAP, SNMP, ping, nslookup, traceroute, DHCP, NAT, PAT
▪ Routing o Routing system basics: routing process, forwarding process o Routing algorithms, metrics, administrative distance o RIPv1 and RIPv2 o OSPF o ISIS o BGP o Routing protocol comparison and use o High availability, traffic engineering
▪ HW, SW, OS o Hardware basics, PC architecture o Hardware basics of network elements in NGN o Switches and routers o Security devices in NGN o Operating systems
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o Terminal technologies o Terminal equipment
▪ ATM o ATM basics and mechanisms o ATM and related technologies, comparison o ATM adaptation layers AAL1-5 o ATM service classes o ATM management o ATM signaling o Data and voice transfer over ATM o ATM usage o ATM evolution to IP, MPLS and GMPLS
▪ MPLS o MPLS basics and concepts o MPLS mechanisms and protocols: LDP, CR-LDP and TE-RSVP o MPLS usage in next generation networks: VPN, TE, FRR, QOS o Generalized control plane GMPLS
▪ Metro Ethernet o Metro Ethernet and services basics o Standardization: IEEE, MEF, ITU-T, IETF o Service model MEF/ITU-T: UNI, EVC, CIR, EIR, CBS, EBS o Metro Ethernet services: ELAN, EPL, EVPL o Metro Ethernet technologies and devices o Classical Ethernet switch: 802.1D, STP, RSTP, MSTP o Carrier Ethernet switch: 802.1ad (QinQ), 802.1ah (MACinMAC) o IP, MPLS router o CWDM, DWDM, NGSDH, GFP, VCAT, LCAS, RPR o Technologies comparison o Metro Ethernet usage: DSL aggregation, ETTH, enterprise
services
▪ xDSL o ADSL, ADSL2, ADSL 2+, VDSL, HDSL, g.SHDSL basics o Physical layer, frequency band, modulation, coding o Packet over xDSL: ATM, Ethernet o IP over xDSL o ADSL measurement and error correction
▪ Cable networks o Analog technologies and digitalization in cable systems o Hybrid optical and coax networks HFC o Cable architecture o Packet transfer over cable DOCSIS o PacketCable service platform o Services in cable networks
▪ FTTH o Passive optical network PON o SCDMA PON
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o TDMA PON o ATM PON, EPON, GPON o WDMA PON o OCDMA PON o Designing, building and maintaining FTTH networks
▪ System planning and operator view o Access networks in service provider network o DSLAM: ATM vs. Ethernet vs. IP o BRAS, CPE o PPP, PPPoEth o Traffic and network engineering o Planning: VoIP, HSI, IPTV, VoD
▪ Virtual Private Networks VPN o Basic mechanisms and concepts o MPLS VPN o L2 MPLS VPN basics o VPWS, VPLS and IPLS services o L3 MPLS VPN basics o BGP/MPLS and VR services o IPSec VPN o L2TPv3 VPN o MPLS, IPSec and L2TPv3 VPN comparison o Configuring MPLS on a router o BGP/MPLS VPN demo
▪ Multicast o IP multicast o Any source multicast o Source specific multicast o Multicast addressing o IGMPv1/v2/v3 protocols o IGMP snooping/proxy o Multicast routing: PIM-SM, PIM-DM, PIM-SSM o Ethernet multicast: addressing, IGMP snooping/proxy o IP/Ethernet multicast demo
▪ Mobile systems and services o Commercial mobile networks overview o Cell structure basics and particularities o Cell network design o Second generation GSM technical characteristics o Call flows and parameters in GSM o Circuit-switched CSD and HSCSD transfer o Migration to packet networks GPRS and EDGE o Third generation UMTS technical characteristics o Evolution versions, Releases o Overview of the following 4G generations and further o Basic services in NMT – UMTS networks
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o Services – bandwidth requirements o Service architecture o Messaging contents and services o Multimedia contents and services o Location-based services o Convergent services
▪ Wi-Fi, Wi-Max and Mobile-Fi o Basics of radiocommunications o Frequency spectrum overview o ISM and licensed bands o Short overview of important wireless technologies o ISM band interference o Versions of Wi-Fi, WLAN, 802.11x technology o Architecture and network elements of WLAN network o WLAN connections design o Security in WLAN networks o Versions of Wi-Max, WMAN, 802.16, 802.20 technology o Architecture and network elements of Wi-Max network o Wi-Max connections design o Mobility and Wi-Max o Security in Wi-Max networks o Overview of Mobile-Fi technology o Process of standardizing new technologies o Operator alliances and partnerships
▪ NGN o Network migration from TDM towards NGN o NGN architecture o Entities: call server, application server, media gateway controller,
media/signalling/access gateways, media server o VoIP and communication flow o Protocols: H.323, MGCP/MEGACO/H.248
▪ SIP o SIP architecture elements: proxy, B2BUA, registrar, UA, roles,
versions o Standardization and protocol extensions: RFCs, 3PCC, SIMPLE,
SIP-T o SIP messages: message structure, basic call flows, delivering SIP
services o SDP protocol o Security and SIP
▪ Diameter, Radius, AAA o Overview of AAA, Radius and Diameter mechanisms o Diameter message structure o Diameter services o Diameter and IMS
▪ IMS o Standards and standardization bodies: 3GPP, ETSI TISPAN, IETF,
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OMA o Architecture of IMS system o IMS entities: CSCF, HSS, AS, MGCF, MGW, SGW, PDF o ETSI TISPAN NGN architecture o Comparing NGN, IMS and ETSI TISPAN NGN environments o User identities o Registration and session control o Security o Billing o Service control o Application servers: SIP AS, OSA SCS, IM-SSF o Application development, application types and examples o Technologies and open interfaces for application development in
NGN: Parlay, Web Services, Parlay X, JAIN, SIP AS, CSTA, CPL, CCXML, VoiceXML
o Parlay X API: Parlay X operation, Parlay X web services overview - Third Party Call, Call Notification, SMS, MMS, Presence, Payment
o Introducing IMS into existent and new systems: advantages, disadvantages, drawbacks and risks regarding IMS
o Presence, IM, Push To Everything, IP centrex/IP PBX, contact and call centers, security and QOS
▪ New communication technologies and services, emerging applications, alternative approaches
o Skype architecture, services and business model, security mechanisms
o Social software, blogging, podcasting, Web 2.0, mash-ups, service convergence, P2P networks, mashed networks, collaboration
▪ FMC o FMC for operators: fixed, mobile, virtual o FMC for users: residential, business o Integration of control mechanisms in FMC: signaling, AAA services o Standardization, bodies, best practice examples o Convergent end-user equipment o Provisioning of mobility in IP networks: micro mobility, macro
mobility, protocols and mechanisms for mobility, Mobile IPv4, Mobile IPv6, Hierarchical IP, SCTP, Mobile SCTP, SIP
▪ SIGTRAN o Current state of classical and NGN signalling o SIGTRAN architecture o SS7 over IP o SCTP o Adaptation layers M3UA, M2UA, M2PA, SUA, IUA o M3UA o M2PA, M2UA, IUA o SIP, SIP-T
▪ Multimedia
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o Images: image design for different applications, compression algorithms
o Animations: creating an animation and implementation of an animation into different environments, animation development tools
o Audio: audio capturing and editing, audio compression algorithms o Voice applications: voice portals, VoiceXML o Video: basics of video signals, video capturing and editing, video
compression algorithms, format conversion and publishing on DVD, publishing of video on the web and integration with additional contents
o Streaming: basics of streaming, formats
▪ Broadcast technologies o Analog broadcasting o Digitalization o Standards o Services
▪ IP television o Protocols for transfer of multimedia content over packet networks o RTP, RTSP, RTCP, MMS o IPTV system architecture o STB terminal equipment o Content distribution chain o TV user interface o Convergent services o Management systems for IPTV o DRM
▪ Mobile TV o Distribution channels: UMTS, radiodifussion – DVB-H, DMB,
MediaFLO o Standards o Production and contents acquiring for mobile terminals o Technical preparation of contents for use on mobile terminals
▪ Security o Encription, conjuction algorithms, digital signature, digital
certificate, secure key exchange, PKI, AAA o Security protocols and services: IPSec, SSL-TLS, SSL-VPN, SSH,
HTTPS o Security devices and mechanism: switch, router, firewall, NAT,
PAT, DMZ, IDS systems, IDP o Function of VoIP and MMoIP with security mechanism VLAN, FW,
IPSec o VPN: hosted NAT traversal, STUN, TURN, UPnP, ALG, SBC, VoIP
peering o Security assurance in WLAN networks
▪ Quality of Service o QoS in Ethernet: VLAN, CoS
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o QoS in IP and MPLS: Diffserv, interserv o Protection and redundancy: 1:1, 1:n, node, link, connection
▪ Management o TM, TMN, standards and standard bodies o Management integration in telecommunications and information
technology: CMIP, SNMP, SNMPv2, SNMPv3, CIM, MIB, MIB-2, Radius, LDAP, DAP, information contents, security in management
o Billing: CDR, TDM, IP
Skills: -
Language: English or Slovene
Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
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1.2 Fixed Mobile Convergence
Code: T0002D05v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 70 d 15 w 15 e 0
Duration: 5 days Contents: ▪ IP
o TCP/IP protocol stack o IP routing o Applications, services and tools
▪ Radio Access technologies o Radio communications basics, allocation of different frequency
bands, non-licensed radio band (ISM) and licensed areas, characteristics of radio signal propagation
o Interferences and reflections o GSM, GPRS, UMTS, 4G o Wi-Fi, Wi-Max, Mobile-Fi o Microwave communications
▪ VoIP architecture and protocols o VoIP network architecture and VoIP signalling flows o Protocols: RTP, RTCP, H.323, MGCP, MEGACO, H.248, SIP
▪ NGN concepts o NGN architecture o Entities: call server, application server, media gateway controller,
media, signalling and access gateway, media server o Protocol mappings
▪ SIP protocol o SIP architecture entities o SIP standardization and protocol extensions o SIP messages: message structure, basic call flows, providing SIP
services o SIP and security
▪ Diameter protocol o AAA mechanisms overview, diameter architecture o Diameter message structure o Diameter services, diameter and IMS
▪ Fixed Mobile Convergence o FMC concepts for operator: fixed, mobile, virtual o FMC concepts for customers: residential, enterprise o Control plain integration in FMC: signalization, AAA services o Standardization, bodies
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o Converged terminal equipment
▪ Providing mobility in IP networks o Micro/macro mobility o Protocols and mobility concepts o Mobile IPv4, Mobile IPv6 o Hierarchical IP o SCTP, Mobile SCTP o SIP
▪ IMS basics o Standards and standardization bodies: 3GPP, ETSI TISPAN, IETF,
OMA o IMS architecture o IMS entities: CSCF, HSS, AS, MGCF, MGW, SGW, PDF o ETSI TISPAN NGN architecture o Comparison of NGN, IMS and ETSI TISPAN NGN environments
▪ IMS concepts o User identities o Registration and session control o Security o Charging and billing o Service control
▪ Service environment o Application servers: SIP AS, OSA SCS, IM-SSF o Application development o Application types and examples
▪ Introducing IMS into existing and next generation networks
▪ Advantages, drawbacks and risks in IMS
▪ Demonstration of open-source SIP server operation
▪ Demonstration of IMS based applications
Skills: -
Language: English or Slovene
Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
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1.3 Multimedia Systems and Services
Code: T0003D05v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 60 d 10 w 30 e 0
Duration: 5 days
Contents: ▪ Introduction to multimedia o Image, animation, sound, video o Basic multimedia platforms and terminals
▪ Introduction to network technologies o Ethernet o IP, TCP, UDP o QoS methods and protocols o DiffServ, IntServ o Ethernet: 802.1p, 802.1Q o Security issues: FW, NAT/PAT
▪ Access networks o xDSL o Fibre networks o Cable networks o Mobile networks
▪ Multicast in IP/Ethernet networks o Multicast service model and addressing o IGMPv1/v2/v3 protocols o IGMP snooping/proxy
▪ VoIP basics o Packeting, RTP o Echo cancelling, Silence reduction, delay and loss control
▪ Next Generation Networks o NGN architecture o Entities: call server, application server, media gateway controller,
signalling and media gateways, media server o Protocols
▪ Fixed mobile convergence
▪ IP Multimedia Subsystem o IMS architecture o IMS to NGN mapping o Application environment: application servers, application
development, examples o Implicating IMS in new and existent networks
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▪ Image o Design and editing o Compression methods
▪ Animation o Animation creating for different media o Tools
▪ Sound o Sampling and editing o Audio compression methods
▪ Voice applications o Voice portals o VoiceXML
▪ Video o Basic signals o Video capturing and editing o Video compression methods o Format converting and DVD authoring o Web publishing and integration with slides
▪ Broadcast technologies o Classic broadcast networks o Digitalisation o Standards o Services
▪ IP television o Multimedia transfer protocols: RTP, RTSP, RTCP, MMS o IPTV architecture o Set-top-box o Content distribution in IPTV o TV user interface o Convergence services o IPTV management o Digital rights management DRM
▪ Mobile TV o Distribution channels o UMTS o Broadcast for mobiles: DVB-H, DMB, MediaFLO o Standards o Contents production and acquisition o Clip formats and encoding for mobile TV
▪ Convergence o Network convergence o Content convergence o Service convergence
▪ Presentations
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o QoS parameters o Video streams over multicast o VoiceXML application development o Video recording and editing, web publishing o Clip encoding for various channels and terminals
Skills: -
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
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© Copyright LTFE 2006. All rights reserved.
1.4 Cisco Networking Academy
Code: T0004D35v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 10 d 05 w 70 e 15
Duration: 280 hours
Contents: ▪ CCNA 1: Networking basics
▪ Basic network elements and their role: hub, switch, router, terminal equipment
▪ Basic network concepts: network topology, bandwidth
▪ Physical layer: copper, optical and wireless media
▪ ISO OSI and TCP/IP protocol stack
▪ IP addressing, basic IP parameters
▪ IP subnetting
▪ Ethernet basics
▪ CCNA 2: Routers and routing basics
▪ Routing protocols and routing basics: RIP, IGRP, EIGRP, OSPF
▪ Router working concepts and router components
▪ Router configuration
▪ CDP and ICMP
▪ Access lists
▪ CCNA 3: Switching basics and intermediate routing
▪ Ethernet switch working concepts and their components
▪ VLAN configuration
▪ STP and VTP
▪ Intermediate routing concepts and routing protocols: RIP, RIPv2, IGRP, EIGRP and OSPF
▪ VLSM subnetting
▪ CCNA 4: WAN Technologies
▪ WAN technologies and concepts
▪ Frame Relay basics and configuration
▪ ISDN with DDR basics and configuration
▪ Protocol PPP (CHAP, PAP) configuration
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▪ Introduction to network administration: SNMP and SysLog
Links: http://sirena.fe.uni-lj.si http://cisco.netacad.net
Skills: -
Language: English Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
30
© Copyright LTFE 2006. All rights reserved.
2 WORKSHOPS
2.1 TCP/IP
Code: W0001D01v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 70 d 10 w 20 e 0
Duration: 1 day
Contents: ▪ OSI in TCP/IP protocol stack
▪ IP protocol stack
▪ IP addressing, CIDR, VLSM
▪ ICMP, TCP and UDP
▪ Applications, services, tools: Telnet, HTTP, DNS, FTP, TFTP, SMTP, POP, IMAP, SNMP, Ping, Nslookup, Traceroute, DHCP, NAT, PAT
▪ Routing basics
▪ IP parameter configuration
▪ Using Ping, Traceroute, and Nslookup tools
Skills: -
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
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© Copyright LTFE 2006. All rights reserved.
2.2 IP Routing
Code: W0002D01v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 70 d 0 w 30 e 0
Duration: 1 day
Contents: ▪ IP routing and switching basics
▪ Addressing, VLSM, CIDR
▪ Routing system components: routing process, forwarding process
▪ Routing algorithms, metrics, administrative distance
▪ RIPv1 and RIPv2
▪ OSPF
▪ ISIS
▪ BGP
▪ Routing protocol comparison
▪ High availability, traffic engineering
▪ Configuring RIP and OSPF on a router
Skills: TCP/IP
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
32
© Copyright LTFE 2006. All rights reserved.
2.3 MPLS I
Code: W0003D01v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 70 d 30 w 0 e 0
Duration: 1 day
Contents: ▪ IP protocol stack, Ethernet, ATM
▪ Placing MPLS among related protocols
▪ MPLS terms and principles
▪ MPLS mechanisms and protocols: LDP, CR-LDP in TE-RSVP
▪ Using MPLS in contemporary networks: VPN, TE, FRR, QoS, GMPLS
▪ MPLS demonstration
Skills: TCP/IP
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
33
© Copyright LTFE 2006. All rights reserved.
2.4 MPLS II
Code: W0004D01v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 70 d 10 w 20 e 0
Duration: 1 day
Contents: ▪ MPLS and GMPLS basics
▪ Using MPLS in contemporary networks
▪ Traffic engineering in MPLS
▪ Virtual private networks in MPLS
▪ L2 MPLS VPN
▪ L3 MPLS VPN
▪ Comparison of MPLS VPN with other VPN solutions
▪ MPLS in mobile networks
▪ MPLS configuration
▪ Demonstration of BGP/MPLS VPN
Skills: TCP/IP, MPLS I
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
34
© Copyright LTFE 2006. All rights reserved.
2.5 IPv6 I
Code: W0005D01v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 70 d 10 w 20 e 0
Duration: 1 day
Contents: ▪ IPv4 and Ethernet
▪ Reasons for migration to IPv6
▪ Key differences between IPv4 and IPv6
▪ IPv6 basics: addressing, DNS, ICMPv6, DHCPv6
▪ IPv6 in Ethernet networks
▪ IPv4 to IPv6 transition mechanisms
▪ Dual protocol stack
▪ Tunneling mechanisms
▪ Address translation NAT/PAT
▪ Configuring IPv6 in Windows and Linux OS
▪ Demonstration of IPv6 on router and firewall
Skills: TCP/IP
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
35
© Copyright LTFE 2006. All rights reserved.
2.6 IPv6 II
Code: W0006D01v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 70 d 0 w 30 e 0
Duration: 1 day
Contents: ▪ IPv6 basics
▪ IPv6 routing
▪ IPv6 multicast
▪ IPv6 security
▪ IPv6 mobility
▪ Configuring IPv6 in Windows and Linux OS
▪ Configuring IPv6 on router and firewall
Skills: TCP/IP, IPv6 I
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
36
© Copyright LTFE 2006. All rights reserved.
2.7 IP Multicast
Code: W0007D01v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 60 d 15 w 25 e 0
Duration: 1 day
Contents: ▪ IP and Ethernet basics
▪ IP multicast basics
▪ ASM model
▪ SSM model
▪ Multicast addressing
▪ IGMPv1, IGMPv2 and IGMPv3 protocols
▪ Multicast routing: PIM-SM, PIM-DM, PIM-SSM
▪ Ethernet multicast basics: addressing, IGMP snooping/proxy
▪ Configuring multicast on router and Ethernet switch
Skills: TCP/IP
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
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© Copyright LTFE 2006. All rights reserved.
2.8 Security in Telecommunications
Code: W0008D02v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 60 d 10 w 30 e 0
Duration: 2 days
Contents: ▪ TCP/IP and Ethernet basics
▪ Encription, hash algorithms, digital signature, digital certificate, secure key exchange, PKI, AAA
▪ Security protocols and services: IPSec, SSL-TLS, SSL-VPN, SSH, HTTPS
▪ Security devices and services: switch, router, firewall, NAT, PAT, DMZ, IDS and IDP systems
▪ Traversal of multimedia services over security devides, FW, IPSec, VPN, Hosted NAT traversal, STUN, TURN, UPnP, ALG, SBC, VoIP peering
▪ WLAN security
▪ Remote VPN access configuration, firewall configuration, NAT
▪ Demonstration of LAN-LAN VPN using IPSec
Skills: TCP/IP
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
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© Copyright LTFE 2006. All rights reserved.
2.9 Telecommunications Management
Code: W0009D01v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 70 d 30 w 0 e 0
Duration: 1 day
Contents: ▪ Introduction, network convergence and management
▪ Telecommunications network management systems: TM, TMN
▪ Standards and standardization bodies
▪ Engineering
▪ Integration: TC and IT infrastructure management
▪ Convergent control: CMIP, SNMP, SNMPv2, SNMPv3, CIM, MIB
▪ Use of protocols
▪ Security in management
▪ Use of security infrastructure
▪ Billing in convergent systems
▪ Information models
▪ Practical demonstration of management: SNMP, SNMPv3
Skills: TCP/IP
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
39
© Copyright LTFE 2006. All rights reserved.
2.10 Virtual Private Networks
Code: W0010D01v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 60 d 10 w 30 e 0
Duration: 1 day
Contents: ▪ IP, Ethernet and MPLS basics
▪ VPN mechanisms and concepts
▪ VPN in MPLS networks
▪ L2 MPLS VPN
▪ Services: VPWS, VPLS in IPLS
▪ L3 MPLS VPN
▪ Services: BGP/MPLS and VR
▪ IPSec VPN
▪ L2TPv3 VPN
▪ MPLS, IPSec and L2TPv3 VPN comparison
▪ Configuring MPLS on router
▪ Demonstration of BGP/MPLS VPN
Skills: TCP/IP, MPLS I
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
40
© Copyright LTFE 2006. All rights reserved.
2.11 Protocols in Telecommunications
Code: W0011D01v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 100 d 0 w 0 e 0
Duration: 1 day
Contents: ▪ Keywords: services, user, provider, access point
▪ Protocols, protocol end point, protocol messages, complexity, protocol stack
▪ Key protocol mechanisms: synchronization, reliable data transfer, error detection and correction (redundant coding, FEC, BEC), connection control, congestion and flow control, fragmentation and defragmentation, addressing, routing, session control, protocol interface functionality, application support
▪ Protocol specification: formal, informal
▪ Protocol implementation: HW, SW, manual, automatic
▪ Standardization in telecommunications: classification of standards and standard publishing organizations, de iure – de facto, significance of standards, international – national - industrial, development of standards, important standard publishing organizations, access to standards
Skills: -
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
41
© Copyright LTFE 2006. All rights reserved.
2.12 SIP
Code: W0012D02v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 60 d 10 w 30 e 0
Duration: 2 days
Contents: ▪ Signalling protocols H.323, MGCP/MEGACO, Skinny/SCCP in SIP
▪ SIP architecture entities and SIP protocol basics, standardization
▪ SIP message structure: header, body, SDP protocol
▪ SIP concepts: basic call flows, registration and principles of locating SIP user, SIP proxy, SIP redirect, B2BUA
▪ SIP addressing schemes: SIP URI, telephony URI, ENUM, HSS
▪ SIP and security: hosted NAT traversal, STUN, TURN, UPnP, SIP ALG, SBC, VoIP-SIP peering
▪ SIP services: base and supplementary services, applications, enterprise and residential services
▪ SIP protocol extensions: 3PCC, SIMPLE, SIP-T
▪ Demonstration of SIP proxy server operation and VoIP terminal management: SIP proxy, OnDO SIP Server, VoIP hardphone, VoIP softphone
Skills: TCP/IP
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
42
© Copyright LTFE 2006. All rights reserved.
2.13 IMS
Code: W0013D01v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 70 d 30 w 0 e 0
Duration: 1 day
Contents: ▪ VoIP architecture and protocols
▪ SIP protocol
▪ Diameter protocol
▪ VoIP/21CN/FMC
▪ IMS architecture and entities
▪ ETSI Tispan NGN
▪ IMS service environment and applications
▪ Implementation of IMS systems
▪ Practical demonstration of open source SIP proxy server
Skills: VoIP and Skype, 3Play
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and coworkers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
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© Copyright LTFE 2006. All rights reserved.
2.14 IMS and ETSI TISPAN NGN
Code: W0014D02v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 70 d 30 w 0 e 0
Duration: 2 days
Contents: ▪ NGN architecture and protocols
▪ SIP protocol
▪ Diameter protocol
▪ Evolution of IMS and ETSI TISPAN NGN and standardization
▪ A rchitecture and entities: CSCF, HSS, AS, MGCF, MGW, SGW etc.
▪ ETSI Tispan NGN
▪ IMS concepts: user identities, registration and session control, security, billing, service control
▪ IMS service environment: application servers SIP AS, IM-SSF, OSA SCS, application development and examples
▪ Implementing IMS in existent and new networks
▪ Advantages, disadvantages, drawbacks and risks in IMS
▪ Practical demonstration of open source SIP proxy server
▪ Practical demonstration of service development in IMS
Skills: VoIP and Skype or 3Play
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
44
© Copyright LTFE 2006. All rights reserved.
2.15 SS7 Signalling
Code: W0015D02v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 80 d 20 w 0 e 0
Duration: 2 days
Contents: ▪ Meaning of signalling and its development
▪ CAS signalling
▪ Signalization in SS7 network o STP, SSC, SCP o MTP1, 2, 3 o ISUP, TUP o SCCP, TCAP, INAP, MAP, CAP
▪ Signalling in access network o V5.1, V5.2 o Signalling in subscribers loop o DSS1, Q931
▪ Intelligent networks
▪ E.164 code assigning
▪ Practical demonstration of different signalling
Skills: -
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
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© Copyright LTFE 2006. All rights reserved.
2.16 NGN Signalling
Code: W0016D02v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 70 d 10 w 20 e 0
Duration: 2 days
Contents: ▪ Next Generation Networks o Idea, background, starting points, significance of open standards o Separation of service and switching functions o Architecture and elements of NGN systems
▪ SIP protocol o Examples o Elements of SIP system o SIP messages: requests, responses o SIP recommendations and extensions 3PCC, SIMPLE, SIP-T o SDP protocol o Workflow traces
▪ H.323 protocol o H.323 protocol architecture o H.323 and DSS1 comparison o Elements of H.323 system o H.323 messages o Workflow traces o Comparison of H.323 protocol versions from v1 to v5
▪ MGCP, MEGACO codecs o MGCP protocol overview o MGCP protocol architecture o MGCP messages o MEGACO protocol overview o MEGACO protocol architecture o MEGACO messages o MGCP and MEGACO comparison
▪ Practical demonstration of signaling
Skills: TCP/IP
Language: English or Slovene
46
© Copyright LTFE 2006. All rights reserved.
Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
47
© Copyright LTFE 2006. All rights reserved.
2.17 SIGTRAN
Code: W0017D02v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 80 d 20 w 0 e 0
Duration: 2 days
Contents: ▪ SS7 and NGN signalling
▪ SIGTRAN architecture
▪ SS7 over IP
▪ SCTP
▪ Adaptation layers M3UA, M2UA, M2PA, SUA, IUA
▪ M3UA
▪ M2PA, M2UA, IUA
▪ SIP, SIP-T
▪ Practical demonstration of SIGTRAN protocols
Skills: SS7 Signalling, NGN Signalling
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
48
© Copyright LTFE 2006. All rights reserved.
2.18 Service Development in NGN and IMS
Code: W0018D01v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 70 d 30 w 0 e 0
Duration: 1 day
Contents: ▪ NGN and IMS service architecture
▪ NGN and IMS service development
▪ Technologies and open interfaces for service development in NGN and IMS: Parlay, Web Services, Parlay X, JAIN, SIP AS, CSTA, CPL, CCXML, VoiceXML
▪ Parlay X API: Parlay X architecture, Parlay X Web Services - Third Party Call, Call Notification, SMS, MMS, Presence, Payment
▪ Examples of Parlay X applications
▪ Practical demonstration of Parlay X application development - examples with .NET in PHP
▪ Practical demonstration of Parlay X applications
Skills: IMS or IMS and ETSI TISPAN NGN
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
49
© Copyright LTFE 2006. All rights reserved.
2.19 Mobile Systems and Services
Code: W0019D02v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 70 d 10 w 20 e 0
Duration: 2 days
Contents: ▪ Commercial mobile networks
▪ Cellular structure introduction and network planning
▪ Technical characteristics of the 2nd generation GSM
▪ GSM call flows, parameters
▪ Circuit-switched communication CSD and HSCSD
▪ Transition to packet-oriented upgrades GPRS and EDGE
▪ Technical characteristics of the 3nd generation UMTS up to Release 7
▪ Introduction to 4th generation networks and above
▪ Service architecture
▪ Elementary services in mobile networks and their bandwith demands
▪ Types of services: messaging, multimedia, location, convergence
Skills: -
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
50
© Copyright LTFE 2006. All rights reserved.
2.20 Mobile Data Transfer
Code: W0020D02v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 60 d 10 w 30 e 0
Duration: 2 days
Contents: ▪ Introduction to circuit-switched core networks
▪ Technical background on CSD and HSCSD
▪ Establishing data connections in CSD and HSCSD
▪ Circuit-switched communication use cases
▪ Architecture upgrade using packet nodes
▪ Technical background on GPRS and EDGE
▪ Establishing packet data connections and roaming
▪ Technical background on UMTS data
▪ Evolutional steps towards HSDPA and HSUPA
▪ Mobile data connections security
▪ Mobile equipment parameter settings
▪ Measurement of peak and average throughput speeds
Skills: Mobile Systems and Services
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
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© Copyright LTFE 2006. All rights reserved.
2.21 Wi-Fi, Wi-Max and Mobile-Fi
Code: W0021D02v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 65 d 10 w 25 e 0
Duration: 2 days
Contents: ▪ Frequency spectrum overview, free ISM and licence bands
▪ Radio communications basics
▪ Radio signal propagation and spreading
▪ Signal reflections and interferences
▪ Short introduction to common wireless technologies
▪ Deep overview of Wi-Fi (WLAN, 802.11x), WLAN architecture and elements, radio link planning, providing secure networking
▪ Deep overview of Wi-Max (802.16x), Wi-Max architecture and elements, radio link planning, providing secure networking
▪ Deep overview of Mobile-Fi (802.20)
▪ Emerging technologies standardization issues
▪ Mobile network operators aspects
Skills: -
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
52
© Copyright LTFE 2006. All rights reserved.
2.22 Wi-Max
Code: W0022D01v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 80 d 20 w 0 e 0
Duration: 1 day
Contents: ▪ Radio communications basics, frequency spectrum, ISM band, licensed and unlicensed band
▪ Radio propagation, interference, noise, reflection
▪ WiMAX standardization : 802.16, 802.16a, 802.16-2004, 802.16e
▪ Network architecture and elements
▪ MAC layer: QoS mechanisms, security mechanisms
▪ Physical layer: radio interface, adaptive modulation, coding
▪ Radio characteristics: channel bandwidth, LOS and NLOS propagation
▪ WiMAX deployment: urban, suburban, rural
Skills: -
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
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© Copyright LTFE 2006. All rights reserved.
2.23 Convergence in Telecommunications
Code: W0023D02v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 60 d 20 w 20 e 0
Duration: 2 days
Contents: ▪ Information and communication technologies
▪ NGN and IMS network, services and content
▪ Fixed mobile convergence
▪ Network integration
▪ Convergent networks and services
▪ Audio and video services
▪ Broadcast and mobile technologies
▪ VoIP and Skype
▪ Multimedia technologies
▪ Multimedia services
▪ E-learning, SiTV
▪ Demonstration of multimedia convergent services
Skills: -
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
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© Copyright LTFE 2006. All rights reserved.
2.24 Convergent Multimedia Services
Code: W0024D02v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 60 d 10 w 30 e 0
Duration: 2 days
Contents: ▪ Convergent services
▪ Voice services and VoiceXML
▪ Multimedia technologies
▪ Terminals, video transport over IP
▪ Video and audio compression: methods and formats
▪ Sinchronisation of video streams with slides and other types of content
▪ Multimedia transport protocols: unicast, multicast, broadcast, RTP, RTCP, RTSP, IGMP
▪ Broadcast technologies
▪ Digitalisation
▪ IPTV stream: transport and distribution
▪ Mobile TV
Skills: -
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
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© Copyright LTFE 2006. All rights reserved.
2.25 VoIP and Skype
Code: W0025D01v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 60 d 10 w 30 e 0
Duration: 1 day
Contents: ▪ VoIP architecture: VoIP architecture elements, implementation of integral VoIP solutions, softswitches, media and signalling gateways, connection of terminal equipment into the system, end user terminal equipment
▪ Basic concepts of IP telephony: video and audio compression, compression formats and methods, TDM packetization, RTP, RTCP, RTSP, VoIP QoS evaluation, PSQM, PAMS, PESQ, MOS
▪ Signaling: H.323, MGCP, MEGACO, Skinny, SCCP, SIP, Skype
▪ VoIP services: presence, IM, Push To Everything, IP centrex/IP PBX, contact and call centers, security and QoS
▪ Skype architecture, service and business model, security mechanisms
▪ Practical demonstration of Skype services
▪ Practical demonstration of SIP Proxy Server and VoIP terminal management: SIP Express Router – SER, OnDO SIP Server, hardware VoIP terminals, software VoIP terminals - softphones
Skills: -
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
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© Copyright LTFE 2006. All rights reserved.
2.26 Audio and Video Transmission in Convergent Networks
Code: W0026D01v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 70 d 10 w 20 e 0
Duration: 1 day
Contents: ▪ Introduction to multimedia technologies, multimedia elements and concepts
▪ Video and audio compression
▪ Radiodifusion
▪ Audio and video transmission over IP networks
▪ IPTV
▪ Mobile TV and DVB-H
▪ Multimedia services
▪ Terminal equipment
Skills: -
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
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© Copyright LTFE 2006. All rights reserved.
2.27 3Play and 4Play
Code: W0027D02v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 70 d 30 w 0 e 0
Duration: 2 days
Contents: ▪ Introduction to IP protocol and Ethernet
▪ 3Play in 4Play basics
▪ IP transport and broadband access technologies: xDSL, CATV, Metro Ethernet, fibre, 3G in 4G mobile networks, Wi-Fi, WiMax
▪ Fixed mobile convergence
▪ IMS
▪ 3Play in 4Play network architecture
▪ Service gateways: BRAS, GGSN
▪ 3Play services
▪ VoIP basics
▪ Video services
▪ Demonstration of 3Play services
Skills: -
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
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© Copyright LTFE 2006. All rights reserved.
2.28 Video and Audio for Residential Environment
Code: W0028D01v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 30 d 30 w 40 e 0
Duration: 1 day
Contents: ▪ 3Play concepts and characteristics
▪ Network technologies and services o Residential IP networking basics o Hardware and terminal equipment o Home networking security basics
▪ Telephony o VoIP basics o Alternative technologies: Skype o VoIP on mobile terminal equipment
▪ Internet services o Broadband services o Peer-to-peer services and networks o Multiplayer games
▪ Home video o Video streaming over IP networks for home use o Video creation, encoding and publishing o IPTV o Video multimedia services o Webcam concepts and implementation o Video for mobile devices
Skills: -
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
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© Copyright LTFE 2006. All rights reserved.
2.29 Hardware and Software
Code: W0029D01v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 75 d 25 w 0 e 0
Duration: 1 day
Contents: ▪ PC platform
▪ PC components
▪ Network devices o Hardware concepts o Network devices: hub, switch, router o Network security devices
▪ Operation systems
▪ Remote access technologies
▪ Terminal equipment
▪ Practical demonstrations o PC platform components o Ethernet router internal components o Live operating systems and OS emulation
Skills: -
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
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© Copyright LTFE 2006. All rights reserved.
2.30 Linux
Code: W0030D03v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 65 d 10 w 25 e 0
Duration: 3 days
Contents: ▪ Basics: Linux, distribution, desktop
▪ Internet applications
▪ Office applications
▪ Multimedia: TV, audio, video
▪ Customizing graphical interface
▪ UNIX file system
▪ Processes
▪ Basic terminal mode: login, file management
▪ Everyday work in console mode: internet, multimedia
▪ Permissions: users, groups, permissions
▪ Pipes, redirections
▪ Working with text files in terminal mode
▪ Installation of Debian GNU Linux
▪ Kernel compiling
▪ 3D support: ATI, nVidia
▪ Compiling custom applications (example: Mplayer)
▪ Basic configuration: network, services
▪ Router set-up
▪ Web server with PHP and MySQL
▪ Bash scripting
▪ VI
Skills: -
Language: English or Slovene
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© Copyright LTFE 2006. All rights reserved.
Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
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© Copyright LTFE 2006. All rights reserved.
2.31 PHP
Code: W0031D02v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 65 d 10 w 25 e 0
Duration: 2 days
Contents: ▪ Static and dynamic web pages
▪ Scripting languages
▪ Server platforms
▪ Development environments
▪ HTML basics
▪ PHP syntax
▪ Variables basics
▪ Logics: statements, loops
▪ Writing, reading files
▪ Communication with SQL
▪ Arrays
▪ Cookies
▪ Practical work: Guest book
▪ Practical work: Mini CMS: login, add news
Skills: -
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
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© Copyright LTFE 2006. All rights reserved.
2.32 Java I
Code: W0032D02v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 70 d 10 w 20 e 0
Duration: 3 days
Contents: ▪ Introduction o Java basics o Prerequisites: JVM, SDK o Advantages and drawbacks of Java
▪ Introduction to objects o Basics of object oriented programming o Methods, constructors, variables o Primitive and complex data types o Basics of Java inheritance o A Execution control: if-else, while, for etc. o Error handling: try/catch usage
▪ Development tools o Borland Jbuilder o Eclipse
▪ Libraries and packages o Standard libraries o Overview and usage of most common libraries o Usage and importing of libraries
▪ Usage of most common complex data types (classes) o String o Arrays o Collections: List, Set, Map
▪ Events and their usage in the Graphical User Interfaces - GUI o Triggering and handling of events o Basics of GUIs AWT, Swing and inclusion of events
▪ Java and networking o Introduction to networking o Reestablishment of low-level network connections (socket) o Reestablishment of HTTP network connections
Skills: -
Language: English or Slovene
64
© Copyright LTFE 2006. All rights reserved.
Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
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© Copyright LTFE 2006. All rights reserved.
2.33 Java II
Code: W0033D02v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 70 d 10 w 0 e 0
Duration: 2 days
Contents: ▪ Usage of most common complex data types, classes o String o Arrays o Collections: List, Set, Map
▪ Events and their usage in Graphical User Interfaces - GUI o Triggering and handling of events o Basics of GUIs AWT, Swing and inclusion of events
▪ Java and data streams o A Input/output streams to files, arrays etc.
▪ Java and networking o Reestablishment of low-level network connections (socket) o Reestablishment of HTTP network connections
▪ Utilities o Logger, Properties
▪ XML technology in Java o SAX, JDOM, Castor, XML Beans
▪ Remote objects o Introduction to SOAP, RMI
▪ Java and P2P networks o Introduction to JXTA
▪ Java and databases o Introduction to SQL o Connecting to databases using JDBC
▪ Introduction to programming of multimedia aplications o Java Media Framework - JMF
Skills: Java I
Language: English or Slovene
66
© Copyright LTFE 2006. All rights reserved.
Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
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© Copyright LTFE 2006. All rights reserved.
2.34 Project Management and Communication in Research and Development
Code: W0034D02v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 90 d 0 w 10 e 0
Duration: 2 days
Contents: ▪ Basics of project management o Goals, phases, fundamental and specific project goals o Chronological organization and resources necessary for project
realization
▪ Project database o Planning, control, prediction, decision and evaluation
▪ Using software Super Project and/or Microsoft Project o Rules for preparing a project proposal, intermediate and final
reports, innovation and intellectual rights protection
▪ Presentations and articles o Time limits and audience, data collection and selection of
information, definition of a key message, selection of proofs, presentation plan, preparation of visual resources and written materials for the audience, preparation of a presentation and exercising, realization and critical evaluation of the presentation, answering questions, how to write an abstract, purpose and structure of an abstract, composition and critical evaluation of an abstract, poster as a method of communication, structure and layout of a poster, how to write an article, structure and basic rules for writing an article, illustration in scientific and technical literature
Skills: -
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
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© Copyright LTFE 2006. All rights reserved.
2.35 Sociological and Psychological Aspects of Telecommunications
Code: W0035D01v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 100 d 0 w 0 e 0
Duration: 1 day
Contents: ▪ Development of information society
▪ Information society and its influence on life o General points on global network society o Communication extensions of network society and individual
▪ Psychology of communications o Psychological characteristics o Message categorization o Language o Communication types o Self-introduction o Role of psychology in mobile communications o Communication perspectives
▪ New communication technologies
Skills: -
Language: Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
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© Copyright LTFE 2006. All rights reserved.
2.36 E-learning Content Development
Code: W0036D01v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 25 d 10 w 65 e 0
Duration: 1 day
Contents: ▪ Basics of e-learning content and terminology
▪ Content development approaches o From the idea to the quality content o E-learning standardization
▪ Content development steps o Course fundamentals o Course scenario o Measuring of course aims achievement o Knowledge assessment o Learning object designing o Content management o Content testing
▪ Practical work: content development
Skills: -
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
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© Copyright LTFE 2006. All rights reserved.
2.37 Pedagogical Support in E-learning
Code: W0037D01v1
Time: By agreement
Location: Faculty of Electrical Engineering: Multimedia room, Diploma room, Laboratory for Telecommunications
Level:
Structure: l 35 d 10 w 55 e 0
Duration: 1 day
Contents: ▪ E-learning and basic concepts
▪ Pedagogical support and the role of tutor
▪ E-learning pedagogical support system
▪ The use of »Closed circuit« method o Pedagogical approaches and technologies o E-collaboration with the users o Progress tracking o Knowledge and progress assessment
▪ Demonstration of the pedagogical support scenarios
▪ Practical work: pedagogical support
Skills: -
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note The price of training depends on the number of participants, the difficulty of contents, duration and proportion of lectures, demonstrations, laboratory work and e-learning. It is defined by agreement with the customer. The maximum number of participants is up 20, however, if agreed a higher number is also possible. The lectures are given by the Laboratory for Telecommunications experts and co-workers. Each participant is given quality learning material. Lunch, snacks and beverages during breaks are also included in the price.
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© Copyright LTFE 2006. All rights reserved.
3 E-LEARNING
3.1 Laboratory for Telecommunications E-learning
3.1.1 The Suite of TCP/IP Communication Protocols
Code: E0001D02v1
Time: Training scenario, contents and ways of realisation are entirely adaptable.
Location: Distance learning
Level:
Structure: l 0 d 0 w 0 e 100
Duration: 10-20 hours approximately
Contents: ▪ Basics of TCP/IP protocol stack
▪ Layer models concept o IP layer o Transport layer: TCP, UDP
▪ Elements of TCP/IP protocol stack
Skills: -
Language: Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note E-learning can be carried out individually or with mentor support. The price of e-learning depends on the level of mentor support.
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© Copyright LTFE 2006. All rights reserved.
3.1.2 Fundamentals of Internet
Code: E0002D01v1
Time: Training scenario, contents and ways of realization are entirely adaptable.
Location: Distance learning
Level:
Structure: l 0 d 0 w 0 e 100
Duration: 5-8 hours approximately
Contents: ▪ Development of Internet through time
▪ Basic concepts of function and usage of Internet systems
▪ World Wide Web, e-mail, file transfer, internet telephony, WAP
▪ Applications: e-learning, e-business, portals
▪ Internet security
Skills: -
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note E-learning can be carried out individually or with mentor support. The price of e-learning depends on the level of mentor support.
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© Copyright LTFE 2006. All rights reserved.
3.1.3 Mobile Technologies
Code: E0003D01v1
Time: Training scenario, contents and ways of realization are entirely adaptable.
Location: Distance learning
Level:
Structure: l 0 d 0 w 0 e 100
Duration: 5-8 hours approximately
Contents: ▪ Basic concepts of public terrestrial commercial mobile networks
▪ Networks and technologies NMT, GSM, HSCSD, GPRS, EDGE, UMTS
▪ Description of all individual systems, their architecture and needed expansions for data transfer-capable networks
Skills: -
Language: English or Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note E-learning can be carried out individually or with mentor support. The price of e-learning depends on the level of mentor support.
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© Copyright LTFE 2006. All rights reserved.
3.1.4 NGN and IMS
Code: E0004D02v1
Time: Training scenario, contents and ways of realization are entirely adaptable.
Location: Distance learning
Level:
Structure: l 0 d 0 w 0 e 100
Duration: 8-12 hours approximately
Contents: ▪ Reasons for migration from existing telecommunications networks to Next Generation Networks
▪ NGN and IMS concepts
▪ NGN and IMS architecture, entities and protocols
▪ NGN and IMS service environment and applications
▪ Convergence
Skills: -
Language: Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note E-learning can be carried out individually or with mentor support. The price of e-learning depends on the level of mentor support.
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© Copyright LTFE 2006. All rights reserved.
3.2 E-learning Provided by Our Partners
3.2.1 Telecommunications
Code: E0005D00v1
Time: By agreement
Location: Distance learning
Level: Varies
Structure: l 0 d 0 w 0 e 100
Duration: Varies
Contents: ▪ Provisioning of more then 40 e-learning courses from the telecommunications field
▪ Pedagogical and professional support
▪ Detailed information: http://lt.fe.uni-lj.si/elearn/
Skills: -
Language: English Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note E-learning can be carried out individually or with mentor support. The price of e-learning depends on the level of mentor support.
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© Copyright LTFE 2006. All rights reserved.
3.2.2 Information Technologies
Code: E0006D00v1
Time: By agreement
Location: Distance learning
Level: Varies
Structure: l 0 d 0 w 0 e 100
Duration: Varies
Contents: ▪ Provisioning of more than 1000 e-learning courses from the information technologies field
o System administration of the server technologies, operating systems and database technologies, different development tools and environments
▪ Pedagogical and professional support
▪ Detailed information: http://lt.fe.uni-lj.si/elearn/
Skills: -
Language: English Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note E-learning can be carried out individually or with mentor support. The price of e-learning depends on the level of mentor support.
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3.2.3 Business and Management
Code: E0007D00v1
Time: By agreement
Location: Distance learning
Level: Varies
Structure: l 0 d 0 w 0 e 100
Duration: Varies
Contents: ▪ Provisioning of e-learning courses from the business, administration and management field
o Business skills for engineers, project management, organizing and managing IT departments, CRM, contact centers
▪ Pedagogical and professional support
▪ Detailed information: http://lt.fe.uni-lj.si/elearn/
Skills: -
Language: English Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note E-learning can be carried out individually or with mentor support. The price of e-learning depends on the level of mentor support.
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3.2.4 Basic Digital Literacy – ECDL
Code: E0008D00v1
Time: By agreement
Location: Distance learning
Level: Varies
Structure: l 0 d 0 w 0 e 100
Duration: Varies
Contents: ▪ Provisioning of e-learning courses from the ICT field o ECDL compliant (European Computer Driving Licence)
▪ Possibility of shorter, usage oriented e-learning deliveries
▪ Pedagogical and professional support
▪ Detailed info: http://lt.fe.uni-lj.si/elearn/
Skills: -
Language: Slovene Legend Difficulty is expressed on the scale 1 – 10 which comprises different levels of difficulty: elementary, intermediate, upper-intermediate and advanced. The structure shows the percentage of lectures (l), demonstrations (d), laboratory work (w) and e-learning (e). Note E-learning can be carried out individually or with mentor support. The price of e-learning depends on the level of mentor support.
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4 MULTIMEDIA IN MODERN TRAINING
Possibilities:
▪ Recording of lessons, presentations and conferences (audio and video)
▪ Videoconferences o Point-to-point o Multipoint
▪ Integration of video, PPT slides and other types of content
▪ Live internet streaming
▪ Video on demand server and web portal development
▪ Web hosting
▪ Publishing of content on DVD, CD, VHS or USB
▪ Preparation of records and contents for e-learning system and publishing in ECHO system
Equipment:
▪ Two projectors
▪ Large board
▪ High quality sound system
▪ Wireless microphones
▪ Audio conference system with microphones and speakers for up to 18 participants
▪ Video conference system over IP and ISDN
▪ Fixed and wireless broadband internet access
▪ Personal computers for learning support
▪ Centralized equipment management system
Note: The price depends on difficulty and extent of multimedia support.
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5 SERVICES, SOLUTIONS AND PROJECT COORPERATION
Fields: ▪ Studies and analyses
▪ Project cooperation and counselling
▪ Network services and solution planning
▪ Implementation of services
▪ Evaluation of products, services and solutions
▪ Measurements and testing
▪ Implementation of protocols, applications and software
▪ Developing and setting up pilot projects
▪ Development and setting up e-learning platforms
▪ A Planning A and A development A of A educational A multimedia A contents, presentation and courses
▪ A Planning, development and setting up interactive multimedia web portals
▪ Production of video contents
▪ Guesting services and services on servers
▪ Web educational television
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6 PRODUCTS
6.1 E-CHO
Code: P0001D00v1
Description: ▪ E-CHO is a platform for e-learning based on information and communication technologies. It includes learning management system (LMS) and learning content management system (LCMS). It enables preparation and access to learning contents and administrative and pedagogical support so as to carry out effective educational process. E-CHO includes many functions which make e-learning more effective and easier, e.g. communicating with participants during training (via e-mail, forums, chat), knowledge and progress assessment and tools, such as adding notes, explorer and data transfer etc.
Requirements: Microsoft Windows Server 2000/2003, Microsoft SQL Server 2000
Language: Multilingual support
Price: By agreement; see note
References: Nova Ljubljanska banka d. d.; Mobitel telecommunications services, d. d.; Ministry of Education and Sports, Ministry of Defence, Slovenian Army, Republic of Slovenia; National Institute of Education; Public Agency for Enterpreneurship and Foreign Investments (PAEFI)
Note: Price depends on the number of users, licencing model and adaptation requirements (http://dl.ltfe.org/).
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6.2 SMS Chat
Code: P0002D00v1
Description: ▪ By using the mobile software application SMS Chat one can communicate by sending short messages SMS. SMS Chat includes interface for capturing SMS messages, chat management (moderatoring, improper language etc.) and result transfer to different media (Internet, teletext, TV, TV communicator etc.).
Requirements: Microsoft Windows Server 2000/2003, Microsoft SQL Server 2000
Language: Multilingual support
Price: By agreement; see note
References: Radio-television Slovenia (Teletext chat, The Olympic Games, TV show »Good Morning«)
Note: Price depends on the number of users, licencing model and adaptation requirements (http://dl.ltfe.org/).
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6.3 SMS Voting
Code: P0003D00v1
Description: ▪ SMS Voting is a mobile software application that enables voting by sending SMS. It includes interface for capturing SMS messages, voting events management and result transfer to different media (Internet, teletext, TV communicator etc.).
Requirements: Microsoft Windows Server 2000/2003, Microsoft SQL Server 2000
Language: Multilingual support
Price: By agreement; see note
References: Radio-television Slovenia (Eurovision Song Selection - EMA 2006)
Note: Price depends on the number of users, licencing model and adaptation requirements (http://dl.ltfe.org/).
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6.4 Communication Add-Ins
Code: P0004D00v1
Description: ▪ Communication Add-Ins represent integration of NGN and IMS services with existing information and communication enterprise systems or user software. An example for this is a convergent application which enables call triggering for senders of a selected electronic message or optional contact, triggering of conference calls, preparation of call jobs and reminders, redirection settings, management of incoming calls etc.
Requirements: Microsoft Windows, Microsoft Outlook 2000/2003, Microsoft .NET Framework, Parlay X plug-in
Language: Multilingual support
Price: By agreement; see note
References: Iskratel Telecommunication Systems, d. o. o.
Note: Price depends on the number of users, licencing model and adaptation requirements (http://dl.ltfe.org/).
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ACRONYM LIST
Acronym Meaning
3G 3rd Generation
3GPP 3rd Generation Partnership Project
3PCC Third Party Call Control
4G 4th Generation
AAA Authentication, Authorization, Accounting
AAATE Association for the Advancement of Assistive Technology in Europe
AACE American Association of Adult and Continuing Education
AAL ATM Adaptation Layer
ACM Association for Computing Machinery
ADSL Asymmetric Digital Subscriber Line
ALG Application Layer Gateway
API Application Programming Interface
AS Application Server
ASL Above Sea Level
ASM Any Source Multicast
ATI ATI Technologies, Inc.
ATM Asynchronous Transfer Mode
AWT Abstract Window Toolkit
B2BUA Back-to-Back User Agent
BEC Backward Error Correction
BGP Border Gateway Protocol
BRAS Broadband Remote Access Server
CAP CAMEL Application Part
CATV Cable Television
CBS Committed Burst Size
CCNA1-4 Cisco Certified Network Associate level 1-4
CCXML Call Control XML
CDP Cisco Discovery Protocol
CDR Call Data Record
CHAP Challenge Handshake Authentication Protocol
CIDR Classless Interdomain Routing
CIM Common Information Model
CIR Commited Information Rate
CMIP Common Management Information Protocol
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CMS Content Management Systems
ComSoc The Commerce Society
CoS Class of Service
CPE Customer Premise Equipment
CPL Call Processing Language
CR-LDP Constraint Based Label Distribution Protocol
CSCF Call Session Control Function
CSD Circuit Switched Data
CSTA Computer Supported Telecommunication Applications
CWDM Coarse Wavelength Division Multiplex
DAP Directory Application Protocol
DDR Dial-on-Demand Routing
DHCP Dynamic Host Configuration Protocol
DMB Digital Multimedia Broadcasting
DMZ Demilitarized Zone
DNS Domain Name Server
DOCSIS Data over Cable Service Interface Specification
DRM Digital Rights Management
DSL Digital Subscriber Line
DSLAM Digital Subscriber Line Access Multiplexer
DSS1 Digital Subscriber Signalling System No. 1
DVB-H Digital Video Broadcasting Handheld
DVD Digital Versatile Disc/Digital Video Disc
DWDM Dense Wavelength Division Multiplex
EBS Excess Burst Size
ECDL Center for Online Training and Certification in Europe
E-CHO Internet Based E-learning Service Provisioning Platform
EDGE Enhanced Data for GSM Evolution
EIGRP Enhanced Interior Gateway Routing Protocol
EIR Excess Information Rate
ELAN Ethernet Local-area Network
ENUM Telephone Number Mapping
EPL Ethernet Private Line
EPON Ethernet PON
ETSI European Telecommunications Standardization Institute
ETTH Ethernet to the Home
EVC Ethernet Virtual Connection
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EVPL Ethernet Private LAN Service
EVPLS Ethernet Virtual Private Path Line Service
FEC Forward Error Correction
FMC Fixed Mobile Convergence
FRR Fast Reroute
FTP File Transfer Protocol
FTTH Fiber to the Home
FW Firewall
g.SHDSL Symmetric DSL
GFP Generic Framing Protocol
GGSN Gateway GPRS Support Node
GMPLS Generalized Multi-Protocol Label Switching
GNU GNU's not UNIX
GPON Gigabit PON
GPRS General Packet Radio Service
GSM Global System for Mobile Communication
GUI Graphical User Interface
H.323 H.323 Teleconferencing Protocol
HDSL High Bit Rate DSL
HFC Hybrid Fiber Coax
HSCSD High Speed Circuit Switched Data
HSDPA High Speed Downlink Packet Access
HSI High Speed Internet
HSS Home Subscriber Server
HSUPA High Speed Uplink Packet Access
HTTP Hypertext Transfer Protocol
HTTPS Hypertext Transport Protocol Secure
HW Hardware
ICMP Internet Control Message Protocol
ICT Information and Communication Technologies
IDP Intrusion Detection and Prevention
IDS Intrusion Detection System
IEEE Institute of Electrical and Electronics Engineers
IEICE The Institute of Electronics, Information and Communication Engineers
IETF Internet Engineering Task Force
IFIP International Federation for Information Processing
IGMP Internet Group Management Protocol
IGRP Interior Gateway Routing Protocol
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IM Instant Messaging
IMAP Internet Message Access Protocol
IMS IP Multimedia Subsystem/Instant Messaging
IM-SSF IP Multimedia – Services Switching Function
IN Intelligent Network
INAP Intelligent Network Application Part
IP Internet Protocol
IPLS IP-only Private LAN Service
IPSec IP Security
IPTV Video over IP
ISDN Integrated Services Digital Network
IS-IS Intermediate System - Intermediate System
ISM Industrial, Scientific, Medical
ISUP ISDN User Part
ITU-T International Telecommunication Union -Telecommunication
IUA ISDN Signalling User Adaptation Layer
JAIN Java APls for Integrated Networks
JDBC Java Database Connectivity
JDOM Java Document Object Model
JMF Java Media Framework
JVM Java Virtual Machine
JXTA Java P2P Programming
L2TP Layer 2 Tunnel Protocol
LAN Local Area Network
LCAS Link Capacity Adjustment Scheme
LCMS Learning Content Management System
LDAP Lightweight Directory Access Protocol
LDP Label Distribution Protocol
LMDS Local Multipoint Distribution Service
LMS Learning Management System
LOS Line of Sight
M2PA MTP2-User Peer-to-Peer Adaptation Layer
M2UA MTP2-User Adaptation Layer
M3UA MTP3-User Adaptation Layer
MAC Media Access Control
MAN Metropolitan Area Network
MAP Mobile Application Part
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MEF Metro Ethernet Forum
MEGACO Media Gateway Control
MGCF Media Gateway Control Function
MGCP Media Gateway Control Protocol
MGW Media Gateway
MIB Management Information Base
MMoIP Multimedia over IP
MMS Multimedia Message Service
MOS Mean Opinion Score
MPLS Multi-Protocol Label Switching
MSTP Multiple Spanning Tree Protocol
MTP1 Message Transfer Part 1
MTP2 Message Transfer Part 2
MTP3 Message Transfer Part 3
MySQL My Structured Query Language
NAT Network Address Translation
NGN Next Generation Network
ngSDH Next Generation SDH
NLOS Non-Line of Sight
NMT Nordic Mobile Telephony
OCDMA Optical Code Division Multiple Access
OMA Object Management Architecture
OS Operating System
OSA Open Service Architecture
OSI Open System Interconnection
OSPF Open Shortest Path First
P2P Peer to Peer
PAMS Perceptual Analysis Measurement System
PAP Password Authentication Protocol
PAT Port Address Translation
PBX Private Branch Exchange
PC Personal Computer
PDF Policy Decision Function
PDH Plesiochronous Digital Hierarchy
PESQ Perceptual Evaluation of Speech Quality
PIM-DM Protocol Independent Multicast Dense Mode
PIM-SM Protocol Independent Multicast Sparse Mode
PIM-SSM Protocol Independent Multicast Source Specific Multicast
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PKI Public Key Infrastructure
PON Passive Optical Network
POP Post Office Protocol
PPP Point to Point Protocol
PPPoEth PPP over Ethernet
PSQM Perceptual Speech Quality Measure
PSTN Public Switched Telephone Network
PVR Personal Video Recording
QoS Quality of Service
RFC Request For Comment
RIP Routing Information Protocol
RMI Remote Method Invocation
RPR Resilient Packet Ring
RS Republic of Slovenia
RSTP Rapid Spanning Tree Protocol
RSVP Resource Reservation Protocol
RTCP Real Time Transport Control Protocol
RTP Real Time Transport Protocol
RTSP Real Time Streaming Protocol
SAP Service Access Point
SAX Simple API for XML
SBC Session Border Controller
SBDC Small Business Development Centre
SCCP Signalling Connection Control Part
SCDMA Synchronous Code Division Multiple Access
SCP Service Control Point
SCS Service Capability Server
SCTP Stream Control Transmission Protocol
SDH Synchronous Digital Hierarchy
SDK Software Development Kit
SDP Session Desription Protocol
SER SIP Express Router
SGW Signalling Gateway
SIGTRAN Signalling Transport Protocol
SIMPLE SIP for Instant Messaging and Presence Leveraging Extensions
SINTESIO NGN Interoperability Test-Site in Slovenia
SIP Session Initiation Protocol
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SIP-T SIP Transport
SiTV Slovenian Educational Television
SMS Short Message Service
SMTP Simple Mail Transport Protocol
SNMP Simple Network Management Protocol
SOAP Simple Object Access Protocol
SQL Structured Query Language
SS7 Signalling System No. 7
SSF Services Switching Function
SSH Secure Shell
SSL Secure Socket Layer
SSM Source Specific Multicast
STB Set Top Box
STP Spanning Tree Protocol
STUN Simple Traversal of UDP Through Network Address Translators
SUA SCCP User Adaptation
SW Software
TCAP Transaction Capabilities Application Part
TCP Transport Control Protocol
TDM Time Division Multiplex
TDMA Time Division Multiple Access
TE Traffic Engineering
TE-RSVP Traffic Engineering Resource Reservation Protocol
TFTP Trivial File Transfer Protocol
TISPAN European Telecommunications Standardization Institute
TLS Transport Layer Security
TM Telemanagement
TMN Telecommunication Management Network
TUP Telephone User Part
TURN Traversal Using Relay NAT
UA User Agent
UDP User Datagram Protocol
UMTS Universal Mobile Telecommunications System
UNI User-to-Network Interface
UPnP Universal Plug and Play
URI Universal Resource Identifier
USB Universal Serial Bus
VCAT Virtual Concatenation
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VDSL Very High Bit Rate DSL
VHS Video Home System
VI VI text editor
VLAN Virtual Local Area Network
VLSM Variable Length Subnet Mask
VoD Video on Demand
VoiceXML Voice XML
VoIP Voice over IP
VPLS Virtual Private LAN Service
VPN Virtual Private Network
VPWS Virtual Private Wire Service
VR Virtual Router
VTP VLAN Trunk Protocol
WAP Wireless Application Protocol
WDM Wavelength Division Multiplex
WDMA Wideband Code Divison Multiple Access
Wi-Fi Wireless Fidelity
Wi-MAX Worldwide Interoperability for Microwave Access
WLAN Wireless Local Area Network
xDSL Digital Subscriber Line
XML Extensible Markup Language
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LOCATION
46° 2' 39,12'' 14° 29' 19,44''
326 m ASL The Faculty for Electrical Engineering is situated in the southwest of Ljubljana, i.e. 2 km from the motorway to Trieste. There is about a 20-minute walk from the centre. There are also other technical faculties and research institutions in the area. Starting from the bus and railway station it is best to go west through Trg osvobodilne fronte Aup Ato Athe Acrossroad Awith ASlovenska Acesta. ATurn Aleft Aat Athe Acrossroad. After A100 m Ayou will get to the bus station in Bavarski dvor. Take the number 6 bus (Dolgi most) on the right side of the road. The bus fare can be paid with cash or a token which can be bought at the newsagent's or the LPP office in Bavarski dvor. The fifth bus stop is right opposite of the Faculty of Electrical Engineering. When coming to Ljubljana from Kranj direction (i.e. northwest), take the number 1 bus (Mestni log), which also stops right opposite the Faculty.
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Travelling by plane Brnik Airport is situated about 20 km northwest from the centre of Ljubljana and it has good connections with other European airports (Zürich, München, Frankfurt, Rome, Paris, London). Of course there are also other airports near Ljubljana (Maribor, Trieste – Ronchi, Zagreb, Klagenfurt). If you should choose the latter airports, you can get to Ljubljana by bus or by train, which would also be the best option. Ljubljana has good railway and road connections. The bus and the railway stations are near the centre of Ljubljana and there is about a 30-minute walk to the Faculty of Electrical Engineering. From the city centre by car From the bus and the railway station drive straight ahead along Trg osvobodilne fronte road past Athe Acrossroad Aand Acontinue Adown ATivolska Acesta Aroad Afor Aabout A2 km. ATurn Aright Aat Athe second trafficlights and continue in Tržaška cesta. Turn left at the third trafficlights and drive along Jadranska ulica to the first trafficlights where you turn left. Drive for about 100 m along Jamova cesta and turn left to the Faculty of Electrical Engineering drive. Parking is possible by previous agreement. From the ring by car Take the Ljubljana – zahod, Industrijska cona Vič exit. Turn right towards the centre at the first crossroad and drive up to Ilirija (a building on the left side). Turn right to Jadranska ulica at the first trafficlights and then turn left at the first trafficlights. Drive along Jamova cesta for about 100 m and then turn left the Faculty of Electrical Engineering drive. Parking is possible by previous agreement.