Course F07_Networks and Protocols


Responsible: Prof.Dr.Grebe

Course

Meets requirements of following modules(MID)

Course Organization

Version
created 2011-10-14
VID 1
valid from WS 2012/13
valid to
Course identifiers
Long name F07_Networks and Protocols
CID F07_NP
CEID (exam identifier)

Contact hours per week (SWS)
Lecture 2
Exercise (unsplit) 2
Exercise (split)
Lab 1
Project
Seminar
Tutorial(voluntary)
Total contact hours
Lecture 30
Exercise (unsplit) 30
Exercise (split)
Lab 15
Project
Seminar
Tutorial (voluntary)
Max. capacity
Exercise (unsplit) 60
Exercise (split)
Lab 18
Project
Seminar

Total effort (hours): 150

Instruction language

  • Deutsch, 90%
  • Englisch, 10%

Study Level

  • Undergraduate

Prerequisites

  • Boole Operations, AND, OR, XOR
  • binary numbers
  • Basic Computer Architecture
  • Basic Knowledge of Operating Systems (Unix/Linux prefered)
  • Basic programming skills

Textbooks, Recommended Reading

  • J. Kurose, K. Ross: "Computer Networks - Top-Down-Approach", Pearson
  • A. Tanenbaum: „Computer Networks“, Pearson
  • IETF RFCs www.ietf.org
  • additional reading in script

Instructors

  • Prof.Dr.Grebe

Supporting Scientific Staff

  • Dipl.-Inf. Michael Willecke

Transcipt Entry

Networks and Protocols

Assessment

Type
sK Regelfall (bei geringer Prüfungsanzahl: sMP)

Total effort [hours]
sK 10

Frequency: 2-3 per year


Course components

Lecture/Exercise

Objectives

Lerninhalte (Kenntnisse)
  • Computer Network Fundamentals
    • Network Technology Evolution
    • Network Applications
    • Networking Requirements
    • Network Topologies
    • LAN, MAN, WAN
    • Connection orientation types
  • Communications Models
    • Layered communications and protocols
    • ISO/OSI Reference Model
    • TCP/IP Model
    • IEEE Model
  • Bit Transmission and Framing
    • Transmission channel
      • Sampling Theorem
      • Nyquist Theorem
      • Shannon Theorem
    • Transmission media
      • Twisted Pair Cable
      • Coaxial Cable
      • Fiber Cable
      • Wireless Transmission
      • Classifications
    • Channel Coding
      • Hamming Distance
      • Block Error Detection
      • Sicherungscodes
      • Parity and Cross Pariyt
      • Cyclic Redundancy Codes
    • Layer 2 Framing
  • Ethernet Technology
    • Standards and Ethernet Variants
      • IEEE Protocols
    • Media Access Control (MAC)
      • ALOHA
      • CSMA/CD
      • Broadcast Domain
      • Collision Domain
    • Ethernet Systems
      • 10 BASE-T
      • 100 BASE-Tx
      • GigE
    • Switched LANs
  • Switching Techniques
    • Hierarchical Switched Networks
    • Store-and-Forward vs. Cut-Through Switching
    • Switch Security Techniques
    • VLAN Techniques
    • Inter-VLAN-Routing
  • Routing
    • Internetworking
      • Media Gateway
      • Routing Gateway
      • Fragmentation
    • IP Addressing
      • IPv4
        • classful and classless addresses
        • Subnetting, Supernetting
        • ARP Protocol
        • Network Address Translation (NAT)
        • DHCP
      • IPv6
        • Prefix and Interface ID
        • IPv6 stateless autoconfiguration
        • EUI-64 Addresses
        • NDP
    • Routing Techniques
      • Static Routing and Summary Routes
      • Interior Routing Protocols
        • Distance-Vector-Routing, RIP
        • Bellman-Ford Algorithm
        • Link-State-Routing, OSPF
        • Dijkstra Algorithm
      • Exterior Routing Protocols
        • Interdomain Routing
        • Autonome Systeme
        • BGP
      • Routing Metrics
        • Administrative Distance
        • Metric calculations
    • IP Packet Filter
      • Access Control Lists (ACL)
  • Transport Protocols
    • Transportdienste und Dienstklassen
    • Connectionless Transport
      • UDP
      • stateless Protocol
      • Transport Multiplex
      • Socket Concept
    • Connection-oriented Transport
      • TCP Reliable Transport
      • stateful Protocols
      • ARQ Flow Control
      • Timing Control
      • Congestion Control
  • Applications Protocols
    • Request-Response Principle
    • Web Protocols (http, url, html)
    • Filetransfer (FTP, TFTP)
    • Remote Console Protocols (Telnet, SSH)
    • Domain Name Service (DNS)

Acquired Skills
  • students acquire fundamental knowledge on theory and applications of networking technologies with focus on IP networks
  • students identify devices and components to networking and end-system functions
  • students collect requirements of actual networking tasks, they are able to plan and implement IP networks
  • students understand and perform IP subnetting
  • students know networking threats and some security mechanisms
  • they are enabled to perform protocol analysis and network troubleshoot analysis

Additional Component Assessment

  • CCNA Chapter Exams/Final Exams
  • Beitrag zum LV-Ergebnis
  • Intervall
    • 1/year

further education

Objectives

Additional Component Assessment

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