Subject: Telecommunication networks and traffic
(17 -
S1437P) Basic Information
Course specification
Course is active from 01.10.2007.. The aim of the course is to: • Repeat previously learned information about knowledge of telecommunications networks and traffic • Detailed and detailed explanations of basic components, architecture, signaling and types of services in circuit switching telecommunication networks • Explain in details the different packet switching technologies and working principles in a packet switched network • Explain students, through the work with the network simulator, the key technologies, organization and work principle in IP networks • Analyze the advantages and disadvantages between networks with circuit switching and packet switched networks • Practically demonstrate certain mechanisms for efficient traffic engineering. Students will be able to: • Explain basic working principles in circuit switched networks • Describe architecture, different types of signaling and explain the operation principles of digital telephone exchange • Describe in detail, the role and nature of connecting roads and transmission systems as basic components of the transport network • Independently design the traffic bundles and traffic engineering • Use an IP network simulator, adjust network parameters and monitor traffic in the network • Locate and resolve problems in networks based on Internet protocols • Discover attacks and apply adequate protection mechanism • Fundamentals of telecommunication traffic • Calculation of transmission network lines • Switching circuits • Asynchronous transfer mode (ATM) • Signalization in public switching telephone network - Physical and software structure of switching system • Networks signalization SS7 in networks with switching circuits • Fundamentals and architecture of narrow-band and broadband ISDN network • The term computer network. ISO OSI model • TCP/IP protocol stack • Physical and logical network topology • Addressing the Internet - IPv4 and IPv6 • Transport layer - protocols for transporting the package (TCP and UDP protocol) • Firewall technology. • Application layer protocols (DNS, HTTP, e-mail, DHCP, FTP) • Providing redundancy to the L2 and L3 layer • Virtual networks on L2 and L3 layer -
VLAN, VPN. • Lectures - based on a student-centered method of education • Auditory practice - based on appliance Teaching Through Debate method • Consultations based on a active learning method.
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