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Basics of Industrial and Consumer Robotics (5 cr)

Code: K502K446OJ-3003

General information

Enrollment

24.03.2025 - 29.09.2025

Timing

30.09.2025 - 28.11.2025

Credits

5 op

Mode of delivery

Contact teaching

Unit

Bachelor of Engineering, Mechanical Engineering

Teaching languages

  • Finnish

Seats

0 - 50

Degree programmes

  • Degree Programme in Mechanical Engineering

Teachers

  • Petri Hannula

Responsible person

Petri Hannula

Student groups

  • KA52K23S
    Bachelor of Engineering, Mechanical Engineering (blended studies), Kemi, Autumn 2023
  • K52K23S
    Bachelor of Engineering, Mechanical Engineering, Kemi, Autumn 2023
  • KA52K23Sr2
    Insinöörikoulutus, konetekniikka (monimuotototeutus), Kemi, syksy 2023
  • KA52K23Sr1
    Insinöörikoulutus, konetekniikka (monimuotototeutus), Kemi, syksy 2023
  • R54T23S
    Bachelor of Engineering, Information Technology (full time day studies), autumn 2023
  • KA52K23Sr3
    Insinöörikoulutus, konetekniikka (monimuotototeutus), Kemi, syksy 2023
  • RA54T23S
    Bachelor of Engineering, Information Technology (online studies), autumn 2023

Location and time

Zoom, Teams, Moodle, Youtube

Materials

Isaac Asimov ( Tuotanto ) R.U.R., 1920, Karel Čapek. Robotti ihmisen apuna, 2017, Niinistö-Samela, Seija, ROS - Online materiaalit ABB Robotics - Robot studio online materiaalit

Teaching methods

Lectures, on-line video lectures, workshops (2 on-site). Remote robot laboratory tasks. Downloadable robot environment use.

Completion alternatives

The learning diary can be returned later by agreeing with the teacher.

Content scheduling

09-11/2025

Evaluation scale

H-5

Assessment methods and criteria

Returned assignments in Moodle environment

Assessment criteria, satisfactory (1-2)

40-65 Points

The student understands the principles of robotics and knows how to use and design simple robotics implementations.
The student is able to implement simple robotics solutions independently.
The student is able to solve basic robotics problems and search for additional information in a guided manner, for example from the digital
materials of the Robot Operating System.

Assessment criteria, good (3-4)

65-90 Points

The student understands the principles of robotics and knows how to use and plan robotics implementations using a suitable method.
The student is able to implement robotics implementations and solutions independently. The student knows how to use the features offered
by robotics actuators and plan a robot implementation. The student knows how to choose the most functional solution for the defined need
from among several robotics solutions. The student knows how to implement a working implementation with the selected solution.
The student is able to solve problems and knows how to search for additional information on robotics digital materials.

Assessment criteria, excellent (5)

> 100 Points

The student can make robotics applications fluently. The student knows how to choose the solution that best suits the task. The student
knows how to apply the opportunities offered by robotics in practice in a versatile way. The student knows how to combine several different
practices into a functional whole.