Computer networks applications

Study programs

Teaching information

Teachers

doc. Ing. Gabriel Bugár, PhD. doc. Ing. Ján Papaj, PhD. Ing. Juraj Kováč Ing. Renát Haluška, PhD. Ing. Jakub Oravec, PhD. Ing. Maroš Harahus, PhD.

Schedule

Learning outcomes

The graduate of the course can describe and explain the principle of using communication protocols on individual layers of the ISO-OSI network model (TCP-IP). The student is able to use and configure active network devices (routers and switches) at both LAN and WAN level. The student will gain knowledge of how to apply the basic concepts of communication security in computer networks based on the use of virtual LAN technology. The student will be able to apply the basic concepts of wireless communications and WAN technology.

Course outline

1. Configuring DHCP and DNS services for IPv4 and IPv6 networks. 2. A deeper look at how Spanning-Tree works and advanced configuration. 3. Network traffic aggregation and the benefits of VLAN Trunk Protocol (VTP). 4. Configuring and troubleshooting basic services in complex networks for IPv4 and IPv6. 5. Advanced configuration of dynamic routing protocols (RIP, OSPF, EIGRP) for IPv4 and IPv6 networks. 6. Elaboration of licensing policies for the Cisco IOS network operating system. 7. Establishing and configuring virtual private networks (VPNs) and network tunnels, IPsec. 8. The concept of WANs, the layered network model and its features. 9. Configuration of selected broadband network technologies. 10. Implementation of syslog, SNMP and NetFlow monitoring tools. 11. Design of network architectures, data centers and collaboration.

Completion conditions

Assessment and completion of the course: Credit test and examination Continuous assessment: Student passes the continuous assessment and receives credits when he or she meets the requirement to obtain at least 21% out of 40%. The continuous assessment will consist of assignments that the student must prepare and submit as instructed by the instructors. There will also be review tests during the semester. Final assessment: Student passes the final assessment and passes the examination when he or she meets the requirement to obtain at least 31% out of 60%. A minimum of 51% on the interim assessment and 51% on the final test will be required to pass the course. The overall grade will be determined by the total number of points earned on the midterm assessment and the final test score. Overall assessment: Overall assessment is the sum of the assessments obtained by students in the assessment period. The overall result is determined in accordance with the internal regulations of the Technical University in Košice. (Study Regulations, the internal regulation principles of doctoral studies)

Recommended literature

1. Kurikulum programu Cisco: Networking Academy: Scaling Networks, http://www.netacad.com, 2013 2. Kurikulum programu Cisco: Networking Academy: , Connecting Networks - http://www.netacad.com, 2013 3. Peniak, P., Kallay, F.: Počítačové siete a ich aplikácie, GRADA Publishing, 2004 4. Naren Mehta, Rus Healy, Wendell Odom: Směrování a přepínání sítí, Computer Press, 2009 5. Chris Sanders: Analýza sítí a řešení problémů v programu Wireshark, Computer Press, 2012 6. Todd Lammle: CCNA, Computer Press, 2010 7. Shannon McFarland, Muninder Sambi, Nikhil Sharma, Sanjay Hooda: IPv6, Computer Press, 2011 8. Pužmanová, R.: Moderní komunikační sítě od A do Z. Computer Press, Praha 2004

Notes

To successfully complete the course, it is necessary to obtain a credit and successfully pass the exam. This includes the student's participation in educational activities of direct teaching, lectures, exercises, as well as independent study and independent creative activity of the student in processing the semester assignment / assignments, project on a specified topic, to a specified extent, in a specified design of a total of 180 hours intensity of the student's work per semester.

Grade distribution

Total graded students: 648