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    Network Technologies and Applications

    A tantárgy neve magyarul / Name of the subject in Hungarian: Hálózati technológiák és alkalmazások

    Last updated: 2024. március 4.

    Budapest University of Technology and Economics
    Faculty of Electrical Engineering and Informatics     		Electrical Engineering BSc, Infocommunication Systems specialisation
    Course ID Semester Assessment Credit Tantárgyfélév
    VITMAC05 5 2/1/0/v 4  
    3. Course coordinator and department Dr. Vida Rolland,
    Web page of the course https://www.tmit.bme.hu/vitmac05
    4. Instructors

    Dr. Rolland Vida, Associate Professor, TMIT

    Dr. Miklós Máté, Assitant Professor, TMIT 

    5. Required knowledge Infocommunications
    6. Pre-requisites
    Kötelező:
    ((Szakirany("AVINmultimed", _) VAGY
    Szakirany("AVINinfokomm", _) VAGY
    Szakirany("AVINnagyfr", _) VAGY
    Szakirany("AVImédia", _) VAGY
    Szakirany("AVIinfokom", _) VAGY
    Szakirany("AVIfrekv", _) )VAGY
    Szakirany("VIABV-INFSYS", _) )


    ÉS NEM ( TárgyEredmény( "BMEVITMA341" , "jegy" , _ ) >= 2
    VAGY
    TárgyEredmény("BMEVITMA341", "FELVETEL", AktualisFelev()) > 0)

    A fenti forma a Neptun sajátja, ezen technikai okokból nem változtattunk.

    A kötelező előtanulmányi rend az adott szak honlapján és képzési programjában található.

    Ajánlott:
    Infocommunications
    7. Objectives, learning outcomes and obtained knowledge The objective of the course is to familiarize the students with the operating principles of the various currently used and future wired access technologies, mostly focusing on the data link layer. On the other hand, the aim is to present the basic principles of network layer communication, covering both wired and wireless networks, with special emphasis on routing algorithms and group communication (multicast). Finally, the aim is to present the most well-known protocols in the transport layer, and to provide an outlook on the future development directions of communication networks.
    8. Synopsis

    1: Wired access network technologies - an introduction. Different DSL solutions: ADSL(2+), VDSL(2), Gigabit DSL.

    2: Cable network - architecture, spectrum allocation, regulation of competitive charging, standardization. DOCSIS (1.0 – 3.1).

    3: Ethernet, Fast Ethernet, Gigabit Ethernet, Terabit Ethernet, Metro Ethernet.

    4: Spanning Tree Protocol, RSTP, MSTP.

    5: Optical networks: FTTC, FTTH, passive and active architecture

    6: Communication in the network layer. IPv4 addressing, subnetting, virtual private networks.

    7. IPv6 addressing, headers, migration strategies

    8: Routing: distance vector based (RIP). link-state based (OSPF).

    9. Routing between domains, the BGP protocol. The MPLS protocol

    10. Group communication - IP Multicast. Group management protocols (IGMP, MLD).

    11. Multicast routing protocols (DVMRP, MOSPF, PIM). IP Multicast vs Applications Layer Multicast - advantages, disadvantages. Anycast.

    12. The transport layer. Operation of the TCP protocol, reliable transmission, congestion control.

    13. Different TCP versions. The UDP protocol and its applications.

    14. An outlook on future solutions for communication networks (SDN, cloud communication, cloud networking, the Internet of the future, the Internet of Things).

    9. Method of instruction The 3 hours per week are divided into 2 hours of lectures and 1 hour of practice. In the practical part, we will carry out concrete case studies related to different technologies, transmission solutions, communication protocols and network applications.
    10. Assessment During the semester: 1 mid-term exam, 1 retake option in the last study week, second retake option in the week before the exam period. The requirement for signature: at least sufficient (2) at the mid-term. During the exam period: a written exam. 
    11. Recaps At fixed dates
    12. Consultations If needed
    13. References, textbooks and resources

    James F. Kurose, Keith W. Ross, Computer Networking: A Top-Down Approach (6th Edition), 2012.

    Kevin R. Fall, W. Richard Stevens, TCP/IP Illustrated, Volume 1: The Protocols (2nd Edition), Addison-Wesley Professional Computing Series, 2011.

    14. Required learning hours and assignment
    Kontakt óra42
    Félévközi készülés órákra14
    Felkészülés zárthelyire14
    Házi feladat elkészítése16
    Kijelölt írásos tananyag elsajátítása
    Vizsgafelkészülés34
    Összesen120
    15. Syllabus prepared by

    Dr. Rolland Vida, Associate Professor, TMIT

    Dr. Miklós Máté, Assitant Professor, TMIT