Subject Datasheet

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Budapest University of Technology and Economics
Faculty of Transportation Engineering and Vehicle Engineering
1. Subject name I+C technologies
2. Subject name in Hungarian I+K technológiák
3. Code BMEKOKAM104 4. Evaluation type mid-term grade 5. Credits 3
6. Weekly contact hours 2 (9) Lecture 1 (5) Practice 0 (0) Lab
7. Curriculum
Transportation Engineering MSc (K)
8. Role
Mandatory (mc) at Transportation Engineering MSc (K)
9. Working hours for fulfilling the requirements of the subject 90
Contact hours 42 Preparation for seminars 8 Homework 0
Reading written materials 22 Midterm preparation 18 Exam preparation 0
10. Department Department of Control for Transportation and Vehicle Systems
11. Responsible lecturer Dr. Bécsi Tamás
12. Lecturers Dr. Sághi Balázs, Dr. Aradi Szilárd
13. Prerequisites  
14. Description of lectures
Numeral systems and coding. Overview of numeral systems involved in computing, conversion procedures between numeral systems. Number coding procedures: pure binary code, complement code, BCD code. Character encoding methods: ASCII coding, character encoding.
Arithmetic. Operations with binary numbers: binary addition, complement code addition, BCD addition, subtraction algorithms, multiplication algorithms, division algorithms.
Components for computers. Logical gates, repositories, multiplexers and demultiplexers, registers, counters and their use.
Computer Structure. Processors: The task, structure and operation of the processors. Historical development of processors. Memory: the task, types, structure and operation of the memories. Bus systems: the task, structure and operation of bus systems; different types of bus systems used in computers; industrial bus systems and their characteristics.
Computer peripherals. Mass storage: magnetic mass storage devices (flexible and hard disks, magnetic tape storage), optical storage procedures, electronic storage devices. Publishers: CRT and LCD displays. Input devices: mouse, keyboard and special input devices.
Computer communication. Physical and logical implementation of communication: serial and parallel data transmission, synchronous and asynchronous data transmission. Standard communication protocols. Computer Networks: General and Industrial Network Structures and Protocols, Network Devices. Wireless communication technologies: bluetooth, IR, WiFi etc. Special transport communication technologies
15. Description of practices
Implementation of the methods learned during the lectures
16. Description of labortory practices
17. Learning outcomes
A. Knowledge
  • knows the basics of building computer systems
  • knows the basic mathematical / arithmetic background of computing
  • knows the operating principles of different peripherals
  • knows basic communication technologies
B. Skills
  • capable of programming embedded systems
  • is able to design data collection systems
C. Attitudes
  • is interested in modern IT solutions
D. Autonomy and Responsibility
  • is able to apply the knowledge acquired here to other systems unknown to it
18. Requirements, way to determine a grade (obtain a signature)
Two midterm exams
19. Opportunity for repeat/retake and delayed completion
One exam can be retried at the end of the semester
20. Learning materials
Lecture Notes
Effective date 10 October 2019 This Subject Datasheet is valid for Inactive courses