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Robotics Project (10 cr)

Code: K502K447OJ-3003

General information


Enrollment

01.10.2024 - 05.01.2025

Timing

20.01.2025 - 14.05.2025

Credits

10 op

Mode of delivery

Contact teaching

Unit

Bachelor of Engineering, Mechanical Engineering

Teaching languages

  • Finnish

Seats

0 - 50

Degree programmes

  • Degree Programme in Information and Communication Technology
  • Degree Programme Electrical and Automation Engineering
  • Degree Programme in Mechanical Engineering

Teachers

  • Ville Kanto
  • Ari Afflekt
  • Petri Hannula

Student groups

  • K52K22S
  • KA52K22Sr1
  • KA52K22S
    Bachelor of Engineering, Mechanical Engineering (blended studies), Kemi, syksy 2022
  • KA52K22Sr2
  • KA53S22SVr2
  • R54T22S
    Bachelor of Engineering, Information Technology (full time day studies), autumn 2022
  • KA52K22Sr3
    Insinöörikoulutus, konetekniikka (monimuotototeutus), Kemi, syksy 2022
  • KA53S22SVr1
  • KA53S22SAU
  • K53S22S

Objective

Upon completing the course, you will learn the necessary skills to plan and implement a robot in an industrial or office environment. You will study various options related to theoretical and practical planning and implementation, compare them and choose the most suitable implementation method in a practical project. You will familiarise yourself with the devices, software and documentation related to the implementation of the robot. You work on the project either alone or in a small group. You will learn to create comprehensive documentation, including e.g. technical drawings, user manuals and final results report, to facilitate future robot maintenance and expansion. You effectively manage project resources and timelines while meeting project objectives and deadlines.

Content

Project work is done in the multidisciplinary teams.
• Project work and project management
• System and application design for robots
• Programming and Control: Develop and implement robot control algorithms, programming sequences, and logic to achieve specific tasks and objectives.
• Improving the knowledge of robotic equipment’s and working tools
• Identify and troubleshoot issues and find effective solutions.
• Robotic safety aspects and safe working
• Documentation & results
• Self- and peer assessment
• Multidisciplinary teamwork
• Overall project reporting and presentation

Evaluation scale

H-5

Assessment criteria, satisfactory (1)

You know how to implement a robotics project in an industrial or office environment with guidance. You are able to create robot design and implementation. You have knowledge of devices, programs and documentation in robotics. Your implementation fulfills robot solution basic requirements. You can produce project documentation and work in your role as team member. You are able to present the final results.

Assessment criteria, good (3)

You know how to implement a robotics project in an industrial or office environment. You are able to create good quality robot design, including layout, component selection, and integration. You have good knowledge of devices, programs and documentation in robotics. You are capable of making robot implementation. Your implementation fulfills robot solution feature requirements. You can produce project documentation and work in your role as team member. You are able to present the final results of the project to audience.

Assessment criteria, excellent (5)

You know how to implement a robotics project in an industrial or office environment. You are able to create excellent quality robot design, including layout, component selection, and integration. You are able to guide others. You have extensive knowledge of devices, programs and documentation in robotics. You are proficient in robot implementation and able to iterate final result utilising feedback during development process. Your implementation fulfills robot solution feature requirements. You can produce high-quality project documentation and work as an expert in a project team. You understand the audience while presenting the final results of the project.

Assessment methods and criteria

Assessment:


0-49 points - rejected
50-59 points = 1/5
60-69 points = 2/5
70-79 points = 3/5
80-89 points = 4/5
90-100 points = 5/5

Qualifications

Basics of industrial and consumer robotics course completed or equivalent knowledge and basic studies completed or equivalent knowledge.