Courses – Fakultet tehničkih nauka u Novom Sadu

Subject: Remote Engineering (17.IZOI93)

Type of studies	Title
Undergraduate Academic Studies	Information Systems Engineering (Year: 3, Semester: Summer)

General information:

Category	Scientific-professional
Scientific or art field	Inženjerstvo informacionih sistema Mehatronika, robotika i automatizacija i integrisani sistemi
ECTS	5

The objective of the course is to obtain the knowledge necessary for the design and implementation of remote control. The tasks, that this subject should accomplish, are mastering the theoretical, methodological and practical knowledge of software engineering, getting to know the hardware components of the real process, acquiring basic knowledge of the communication mode, sensing and integrating into a complex real-time system, which is remotely possible to change the control program and to check the effects of changes.

After completing the course and passed the exam, the student is qualified to design a robotic and automated device and, on the basis of the necessary conditions, realizes and implements the integration over the Internet, defines the optimal characteristics of their control (step by step), develops a Web application (a simple graphical interface) with On - Line connected vision system and to allow remote access to control software of automated equipment. In this way, practical skills are gained that enable the development of clear, concise and formalized requirements for the expansion of existing systems in accordance with the needs of the users.

Introduction to Remote Control. Effects of remote control applied in different areas of industry, entertainment and teaching process. Review and demonstration the control systems basics remotely as well as way of operating remote automated devices. Architecture of remote automated devices. Design and implementation of remote automated devices. Development environments (Raspberry Pi, NI CompactRIO, Arduino, ect.), programming languages and graphical programming tools for remote control needs (Lab View, Arduino IDE, C #, Python, HTMLPad, Java Script, etc.). Upload and download user programs on appropriate automated devices. Implementation of remote control of automated devices using various platforms (weblabdeusto, eLab, GoLab, CEyeClon, etc.) over the Internet using standard protocols and wireless networks for remote changing of control programs and checking the effects of change. User organizational structure and communication paths in remote experiments (moodle, CeyeClon, etc). Documentation related to remote automated devices. Practical teaching.

Teaching on this course takes place through lectures and exercises. On lectures it will be discuss theoretical basics, while on exercises it will be conducted practical work with the maximum participation of students with special emphasis on the research component. All the exercises are in the lab. The requirement for a student to take the final exam is a successful defense of laboratory exercises. The final exam is in the form of a test and relates to theoretical questions.

Authors	Title	Year	Publisher	Language
Šulc, J. Šešlija, D. Dudić, S. Milenković, I.	Implementation of remote laboratory for measuring linear dimensions in the process of e-learning	2015	IEEE	English
Šulc, J. Šešlija, D. Dudić, S. Milenković, I.	Remote Laboratory for Measuring Linear Dimensions in the Process of E-Learning	2016	International journal of online engineering	English
Bajči, B., Dudić, S., Šulc, J., Milenković, I., Šešlija, D., Reljić, V.	Remote system for measuring geometric tolerances: Roundness	2016	IEEE	English
Olga Dziabenko, Javier Garcia-Zubia	IT Innovative Practices in Secondary Schools: Remote Experiments	2013	University of Deusto Bilbao	English