Course title, code: Robotics, GAGEBAL-ROBOTTEC-1
The aim of the course is for students to learn the methods of controlling industrial robots, the principle of robot control and the basics of robot programming.
Knowledge:
Can apply the computational, modeling principles and methods related to mechanical product, process, and technology design.
Is able to apply the acquired IT knowledge in solving tasks arising in their field of expertise. Is capable of applying the technical specifications related to the operation of mechanical systems, as well as the principles of setting up and operating machinery and mechanical equipment, and their economic correlations.
Is open to learning about and accepting ongoing professional and technological developments and innovations in the technical field, and reliably conveying them.
Identifies the shortcomings of applied technologies, the risks of processes, and initiates actions to mitigate these.
Mid-term study requirements:
Exam requirements:
Bruno S., Oussama K.: Springer handbook of robotics, Springer. 2008. ISBN: 978-3540239574
A.K. Gupta, S.K. Arora and Jean Riescher Westcott: Industrial Automation and Robotics, Mercury Learning and Information LLC, 2016, ISBN: 978-1-938549-30-4. (https://dlib.hust.edu.vn/bitstream/HUST/18625/3/OER000000209.pdf) Mark R. Miller and Rex Miller: Robots and Robotics: Principles, Systems, and Industrial Applications, 1st Edition, McGraw-Hill Educationm 2017, ISBN: 9781259859786. Isak Karabegović and Lejla Banjanović-Mehmedović: Industrial Robots: Design, Applications and Technology, NOVA publishers, ISBN: 978-1-53617-779-4 Michal Gurgul: Industrial robots and cobots: Everything you need to know about your future co-worker, ISBN: 8395251319