Title:

Security and Computer Networks

Code:IBS
Ac.Year:2018/2019
Sem:Summer
Curriculums:
ProgrammeFieldYearDuty
IT-BC-3BIT-Elective
IT-BC-3BIT2ndElective
Language of Instruction:Czech
Private info:http://www.fit.vutbr.cz/study/courses/IBS/private/
Credits:4
Completion:credit+exam (written)
Type of
instruction:
Hour/semLecturesSeminar
Exercises
Laboratory
Exercises
Computer
Exercises
Other
Hours:260607
 ExamsTestsExercisesLaboratoriesOther
Points:60200020
Guarantor:Očenášek Pavel, Mgr. Ing., Ph.D. (DIFS)
Deputy guarantor:Trchalík Roman, Mgr., Ph.D. (DIFS)
Lecturer:Očenášek Pavel, Mgr. Ing., Ph.D. (DIFS)
Instructor:Očenášek Pavel, Mgr. Ing., Ph.D. (DIFS)
Trchalík Roman, Mgr., Ph.D. (DIFS)
Faculty:Faculty of Information Technology BUT
Department:Department of Information Systems FIT BUT
Prerequisites: 
Computer Communications and Networks (IPK), DIFS
Network Applications and Network Administration (ISA), DIFS
Operating Systems (IOS), DITS
Schedule:
DayLessonWeekRoomStartEndLect.Gr.Groups
ThulecturelecturesD0207 15:0016:502BIA 2BIB 3BIT xx
 
Learning objectives:
  The goal of this course is to inform students about basic principles of network and systems security and relevant protocols and standards. Students are learned to design and manage security technologies.
Description:
  Secure Communication on the L2 Layer. Certificates and Digital Signature. Attacks in Computer Networks. Security Protocols, their Analysis, Verification and Design. Application of Security Protocols. Security on the L3 Layer. IPsec and VPN. Security of Network Services. IDS and IPS Systems. Security of Wireless Networks. Security of Sensor Networks.
Knowledge and skills required for the course:
  
  • Basic skills of operation systems Unix, Windows
  • Ability to read study texts in English (standards, RFC documents).
  • Architecture of computer networks (ISO/OSI, TCP/IP).
  • Overview of link layer protocols and network layer protocols.
Learning outcomes and competencies:
  Student are able to configure secure communication between computers. They have an overview of authentication principles and secure network services and they are able to manage them: SSH, VPN, email services, etc. They have overview of security technologies used in wireless and sensor networks. Students are able to design and implement secure communication. Students are able to read standards and use them for project implementation.
Why is the course taught:
  Complementing for IT graduates to understand the principles of computer network security, i.e. how the security mechanisms in computer networks work, how they are configured.
Syllabus of lectures:
 
  1. Introduction. Overview of computer security.
  2. Security of L2 layer (802.1x, PAP, CHAP).
  3. Certificates. Digital signature (PKI, TKPI). Certification authority. Authentication and authorization in computer networks AAA.
  4. Attacks in computer networks.
  5. Security protocols, their analysis and verification.
  6. Design of security protocols and their application. Payment protocols.
  7. Security of L3 layer. IPsec and VPN.
  8. Security of network services. Secure transport (SSL, TLS). Security on the application layer.
  9. Firewalls. IDS and IPS systems.
  10. Security of wireless and mobile networks. WEP, WPA.
  11. Security of sensor networks. ZigBee.
  12. Security in practice.
  13. Modern trends of networks security. Course summary.
Syllabus of laboratory exercises:
 
  1. Practical analysis of security protocol.
  2. Practical implementation of secure communication.
  3. Administration of secure communication (SSH, stunel, pgp). Creation of VPN connections. Secure connections testing.
Syllabus - others, projects and individual work of students:
 Practical analysis of security protocol. Practical implementation and administration of secure communication.
Fundamental literature:
 
  • Kurose, James F.: Computer networking : a top-down approach. 7th ed., Pearson, Essex, 2017, ISBN 978-1-292-15359-9
  • Stallings, W.: Network security essentials : applications and standards. Hoboken, 2016, 978-0-13-452733-8.
  • Schneider, S.A., Ryan, P.Y.A.: Modelling and Analysis of Security Protocols. Addison Wesley, Boston, 2000, ISBN 0-201-67471-8.
  • Bishop, M.: Computer security: Art & Science. Addison-Wesley, Boston, 2003, ISBN 0-201-44099-7.
  • Anderson, Ross J.: Security Engineering: A Guide to Building Dependable Distributed Systems. John Wiley & Sons Inc, 2001, ISBN 0-471-38922-6.
  • Menezes, A. J., Oorschot, P.C. van, Vanstone, S.A.: Handbook of Applied Cryptography. CRC Press, 1996, ISBN 0-8493-8523-7, http://www.cacr.math.uwaterloo.ca/hac/
  • Tanenbaum, A.S.: Computer Networks. Fourth Edition, Prentice Hall, 2003, ISBN 0-13-066102-3.
  • Standardy IETF RFC.
Study literature:
 
  • Lecture notes in electronic form.
Controlled instruction:
  Mid-term exam and project realization.
Progress assessment:
  Mid-term exam and project realization.
Exam prerequisites:
  Students need to earn at least a half of all points during the semester.
 

Your IPv4 address: 54.226.36.60
Switch to IPv6 connection

DNSSEC [dnssec]