Course Internetworking And Network Security


Responsible: Prof.Dr. Grebe

Course

Meets requirements of following modules(MID)

Course Organization

Version
created 2011-11-14
VID 1
valid from WS 2012/13
valid to
Course identifiers
Long name Internetworking And Network Security
CID F07_IN
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)
Exercise (split) 30
Lab 18
Project
Seminar

Total effort (hours): 150

Instruction language

  • Deutsch, 90%
  • Englisch, 10%

Study Level

  • Bachelor

Prerequisites

  • Knowledge and Competences of Module Networks and Protocols (NP)
  • alternate requorements: knowledge and competences of IP networking courses or CCNA (ITN and RSE)
    • Networking Fundamentals
    • TCP/IP Protocol Family
    • ISO/OSI Model and Protocols
    • IPv4/IPv6 Addressing, Subnetting, and Routing
    • Switching Techniques
    • TCP/UDP Transport Techniques
    • Application Protocols
    • Network Implementation Competences (Client, Server, Switch, Router)

Textbooks, Recommended Reading

  • J. Kurose, K. Ross: "Computer Networks- Top-Down-Approach", Pearson
  • A. Tanenbaum: „Computer Networks“, Pearson
  • J. Schiller: "Mobilkommunikation", 2. Auflage Prentice Hall, 2003
  • N. Pohlmann: "Firewallsysteme", 5. Auflage mitp-Verlag, 2003
  • H.-G. Hegering, S. Abeck, B. Neumair: "Integriertes Management vernetzter Systeme", 1. Auflage dPunkt Verlag, 1999
  • IETF RFCs www.ietf.org
    • Additional reading in script

Instructors

  • Prof.Dr. Andreas Grebe

Supporting Scientific Staff

  • Dipl.-Inf. Michael Willecke

Transcipt Entry

Internetworking and Network Security

Assessment

Type
sMP Regelfall (bei großer Prüfungszahl: sK)

Total effort [hours]
sMP 10

Frequency: 2-3/year


Course components

Lecture/Exercise

Objectives

Lerninhalte (Kenntnisse)
  • Scaling Network Technologies
    • Hierarchical Network Design
      • Switching Layer
      • Access, Distribution, Core Layer
      • Layer 2 Redundancy
      • Spanning Tree Protocol (STP) and Variations
      • Default Gateway Protocols
      • Link Aggregation
    • Switch Security
      • Port Security
      • Angriffe auf Switched LAN
      • MAC Filtering
      • VLAN
    • Wireless LAN (WLAN) Technology
      • WLAN band, frequencies, bandwidth
        • 2,4 GHz ISM Band
        • 5 GHz Band
      • 802.11 Standards
        • IEEE 802.11a, b, g, n, ac
      • WLAN architectures
        • Ad Hoc mode
        • Infrastructure mode
        • Bridge Mode
        • Repeater Mode
      • Media Access Control (MAC)
        • CSMA/CA
        • RTS/CTS
          • Hidden Node Problem
        • 802.11 Frame Types
      • WLAN Security
        • Association
          • Probing
          • Authenication
          • Association
        • Security Techniques
          • SSID Supression
          • MAC Filtering
          • WEP
          • WPA/TKIP
          • WPA2/AES
          • 802.11i EAP
    • Advanced Routing
      • Advanced OSPF Rouitng
        • IPv4 and OSPFv2
          • Cost adjustment
          • Neighbor adjacencies management
          • DR / BDR concepts
          • Timing Management
          • OSPF Authentication
        • IPV6 and OSPFv3
      • Multiarea OSPF Routing
        • Hierarchical Routing
        • LSA message types
        • Inter-area Routing
    • WAN Technologies
      • Enterprise Network Design
      • WAN Options
        • Leased Lines
        • Dialup Connections
        • Frame Relay and ATM
        • Ethernet WAN
        • MPLS
        • DSL
        • Cable Networks
        • VPN
      • Serial Connections
        • Time Division Multiplex
        • SDH / SONET
        • HDLC Protocol
        • PPP Protocol
      • DSL Technology
        • DSL Standards and Variations
        • DSL Network Architecture
        • DSL Transmission
        • Integrated Access Device (IAD)
        • PPPoE
  • Network Security
    • Crypthografic Methods
      • Security Threats and Objectives
      • Block and stream ciphers
      • Symmetrical Encription
        • XOR
        • RC4
        • DES / 3DES
        • AES
      • Asymmetrical Encryption
        • RSE
      • Secure Key Generation
        • DH Diffie-Hellman
      • Hashing
        • SHA1 / SHA256
    • Network Address Translation (NAT)
      • Hiding Network Topologies and Addresses
      • NAT
      • PAT
    • Packet Filter and Firewalls
      • Paketfilter
        • Default Strategies
        • Access Control Lists (ACL)
          • Standard ACL
          • Extended ACL
      • Firewalls
        • Packet Level Firewalls
        • Stateful Firewalls
        • Application Level Firewalls
        • Demilitarised Zone (DMZ)
      • Proxy Gateways
        • Circuit Level Gateway
        • Application Level Gateway
        • NAT / NAPT Gateway
    • Virtual Private Networks (VPN)
      • VPN Architecture
      • L2TP Tunneling
      • GRE Tunneling
      • IPsec VPN
        • IPsec Architecture
        • IPsec Authentication
        • IPsec Encryption
        • IPsec Key Management
    • Transport Layer Security (SSL, TLS)
    • Application Layer Security
  • Network Management
    • Network Management Objectives
      • Management Dimensions
      • FCAPS
        • Fault
        • Configuration
        • Accounting
        • Performance
        • Security
    • Simple Network Management Protocol (SNMP)
      • SNMP Management Architecture
      • Management Information Base (MIB)
      • ASN.1
      • SNMPv1 Protocol
      • SNMPv2 Protocol
      • SNMPv3 Protocol
    • Syslog
    • NetFlow

Acquired Skills
  • students acquire advanced knowledge on theory and applications of networking technologies with focus on IP networks
  • students are enabled to plan and implement enterprise networks including branch offices and remote offices
  • students have fundamental knowledge on network threats, security means and security protocols
  • students know SNMP network management mechanisms, and concepts

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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