Security Systems

Course Description

Survey of the sources and classes of the risks. Risk degree estimation. Protection classification and management. Anti adversary protection systems. Access control. Alarm installations design principles. RDefining and using video surveillance systems and protective illumination. Fire alarm systems and other risk state detection. Ex-equipment. Norms and regulations.

Learning Outcomes

  1. Describe the procedure of the alarm system design
  2. identify the elements of anti burglar and fire alarm system
  3. explain the principles of alarm system functioning
  4. use the elements of the anti adversary system
  5. analyze the protection system
  6. model the protection system by the diagram
  7. design the ant adversary system
  8. estimate the numerical vulnerability assessment of the facility

Forms of Teaching

Lectures

Field work

Laboratory

Week by Week Schedule

  1. Introduction to the safeguard and security systems; Threat sources and classification, Qualitative threat assessment
  2. Qualitative threat assessment, Quantitative threat assessment on single interruption path
  3. Quantitative analysis of the vulnerability of the facility to intrusion
  4. Overview of the security system project; Elements of the security systems
  5. Sensors of the intrusion detection systems; Outdoor sensors
  6. Indoor sensors
  7. Control units and communication systems, Electromechanical actuators, barriers and delay systems
  8. Midterm exam
  9. Identification system and entry control system
  10. Video supervision system; Cameras, lenses
  11. Recording and control system; Lighting systems; Video motion detectors, Video integration of the security system
  12. Fire threats and fire classification, Fire detectors overview; smoke detectors, Flame detectors; temperature detectors
  13. Fire alarm control unit and fire alarm systems, Automatic fire extinguishing systems
  14. Detector selection and arrangement according the object characteristic, Integration of the fire alarm system with security system and building control system
  15. Final exam

Study Programmes

University graduate
Audio Technologies and Electroacoustics (profile)
Free Elective Courses (1. semester) (3. semester)
Communication and Space Technologies (profile)
Free Elective Courses (1. semester) (3. semester)
Computational Modelling in Engineering (profile)
Free Elective Courses (1. semester) (3. semester)
Computer Engineering (profile)
Free Elective Courses (1. semester) (3. semester)
Computer Science (profile)
Free Elective Courses (1. semester) (3. semester)
Control Systems and Robotics (profile)
Elective Courses of the Profile (1. semester)
Data Science (profile)
Free Elective Courses (1. semester) (3. semester)
Electrical Power Engineering (profile)
Free Elective Courses (1. semester) (3. semester)
Electric Machines, Drives and Automation (profile)
Free Elective Courses (1. semester) (3. semester)
Electronic and Computer Engineering (profile)
Free Elective Courses (1. semester) (3. semester)
Electronics (profile)
Free Elective Courses (1. semester) (3. semester)
Information and Communication Engineering (profile)
Free Elective Courses (1. semester) (3. semester)
Network Science (profile)
Free Elective Courses (1. semester) (3. semester)
Software Engineering and Information Systems (profile)
Free Elective Courses (1. semester) (3. semester)

Literature

(.), M. L. Garcia: The Design and Evaluation of Physical Protection systems, Butterworth-Heinemann, 2008, ISBN 0-7506-8352-X ,
(.), Jane I. Lataille: Fire Protection Engineering in Building Design (Plant Engineering), Elsevier Science, 2003, ISBN 0-7506-7497-0 ,
(.), T. Norman: Integrated security system design, Butterworth-Heinemann. 2007,ISBN 0-7506-7909-3 ,
(.), L. Fennelly: Handbook of Loss Prevention and crime Prevention L. J. Fennelly Butterworth, Boston 1989., ISBN/ISSN 0-7506-8162-4,

For students

General

ID 222441
  Winter semester
5 ECTS
L3 English Level
L1 e-Learning
30 Lectures
10 Laboratory exercises