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RoboticsLaajuus (5 cr)

Code: 5K00DL03

Credits

5 op

Objectives

The students become familiar with the basic design techniques, functioning and programming of the robots. They can also apply their skills in product automation and material handling. After the course the students have a capability to program robots and to do programming applications. They can accomplish the most common tasks in material handling and welding, and they understand the role of sustainable development and digitalization at the area of robotics. Goals for product development (DFA, DFX etc.) and success factors, methods, for creative work, project work, simulation as a design tool, design methods, concept of systematic design.

Content

Course consists of lectures and laboratory training, both on simulated environment and at the laboratory. Lectures focus on basic terminology of the robotics and programming principles as well as safety issues. In addition, the viewpoints of cost effective and user-friendly robotization of processes are included.

Assessment criteria, satisfactory (1-2)

The student recognizes basic concepts of robotics and uses of robotics. The student performs robot programming tasks as an assistant or as part of a group.

Assessment criteria, good (3-4)

Students are able to apply the most important concepts of robotics and identify potential applications of robotics. The student is able to independently design and implement basic robot programming.

Assessment criteria, excellent (5)

The student understands the wide-ranging entities of robotics, generalizes, analyzes, looks for different solutions, and works constructively in the group.

Further information

Literature:
Robotiikka, Suomen Robotiikkayhdistys ry

Enrolment period

18.11.2024 - 05.01.2025

Timing

01.01.2025 - 31.05.2025

Credits

5 op

Mode of delivery

Contact teaching

Unit

Mechanical Engineering

Campus

TAMK Main Campus

Teaching languages
  • Finnish
Degree programmes
  • Degree Programme in Mechanical Engineering
Teachers
  • Topi Talvitie
Person in charge

Jere Siivonen

Groups
  • 22I190

Objectives (course unit)

The students become familiar with the basic design techniques, functioning and programming of the robots. They can also apply their skills in product automation and material handling. After the course the students have a capability to program robots and to do programming applications. They can accomplish the most common tasks in material handling and welding, and they understand the role of sustainable development and digitalization at the area of robotics. Goals for product development (DFA, DFX etc.) and success factors, methods, for creative work, project work, simulation as a design tool, design methods, concept of systematic design.

Content (course unit)

Course consists of lectures and laboratory training, both on simulated environment and at the laboratory. Lectures focus on basic terminology of the robotics and programming principles as well as safety issues. In addition, the viewpoints of cost effective and user-friendly robotization of processes are included.

Further information (course unit)

Literature:
Robotiikka, Suomen Robotiikkayhdistys ry

Assessment criteria, satisfactory (1-2) (course unit)

The student recognizes basic concepts of robotics and uses of robotics. The student performs robot programming tasks as an assistant or as part of a group.

Assessment criteria, good (3-4) (course unit)

Students are able to apply the most important concepts of robotics and identify potential applications of robotics. The student is able to independently design and implement basic robot programming.

Assessment criteria, excellent (5) (course unit)

The student understands the wide-ranging entities of robotics, generalizes, analyzes, looks for different solutions, and works constructively in the group.

Assessment scale

0-5

Enrolment period

02.07.2024 - 18.08.2024

Timing

01.08.2024 - 31.12.2024

Credits

5 op

Mode of delivery

Contact teaching

Unit

Mechanical Engineering

Campus

TAMK Main Campus

Teaching languages
  • Finnish
Degree programmes
  • Degree Programme in Mechanical Engineering
Teachers
  • Konetekniikka Virtuaalihenkilö
  • Topi Talvitie
Person in charge

Tero Haapakoski

Groups
  • 22AI112P

Objectives (course unit)

The students become familiar with the basic design techniques, functioning and programming of the robots. They can also apply their skills in product automation and material handling. After the course the students have a capability to program robots and to do programming applications. They can accomplish the most common tasks in material handling and welding, and they understand the role of sustainable development and digitalization at the area of robotics. Goals for product development (DFA, DFX etc.) and success factors, methods, for creative work, project work, simulation as a design tool, design methods, concept of systematic design.

Content (course unit)

Course consists of lectures and laboratory training, both on simulated environment and at the laboratory. Lectures focus on basic terminology of the robotics and programming principles as well as safety issues. In addition, the viewpoints of cost effective and user-friendly robotization of processes are included.

Further information (course unit)

Literature:
Robotiikka, Suomen Robotiikkayhdistys ry

Assessment criteria, satisfactory (1-2) (course unit)

The student recognizes basic concepts of robotics and uses of robotics. The student performs robot programming tasks as an assistant or as part of a group.

Assessment criteria, good (3-4) (course unit)

Students are able to apply the most important concepts of robotics and identify potential applications of robotics. The student is able to independently design and implement basic robot programming.

Assessment criteria, excellent (5) (course unit)

The student understands the wide-ranging entities of robotics, generalizes, analyzes, looks for different solutions, and works constructively in the group.

Assessment scale

0-5

Enrolment period

02.12.2023 - 11.01.2024

Timing

01.01.2024 - 01.06.2024

Credits

5 op

Mode of delivery

Contact teaching

Unit

Mechanical Engineering

Campus

TAMK Main Campus

Teaching languages
  • Finnish
Degree programmes
  • Degree Programme in Mechanical Engineering
Teachers
  • Jere Siivonen
  • Tero Haapakoski
Person in charge

Jere Siivonen

Groups
  • 21I190

Objectives (course unit)

The students become familiar with the basic design techniques, functioning and programming of the robots. They can also apply their skills in product automation and material handling. After the course the students have a capability to program robots and to do programming applications. They can accomplish the most common tasks in material handling and welding, and they understand the role of sustainable development and digitalization at the area of robotics. Goals for product development (DFA, DFX etc.) and success factors, methods, for creative work, project work, simulation as a design tool, design methods, concept of systematic design.

Content (course unit)

Course consists of lectures and laboratory training, both on simulated environment and at the laboratory. Lectures focus on basic terminology of the robotics and programming principles as well as safety issues. In addition, the viewpoints of cost effective and user-friendly robotization of processes are included.

Further information (course unit)

Literature:
Robotiikka, Suomen Robotiikkayhdistys ry

Assessment criteria, satisfactory (1-2) (course unit)

The student recognizes basic concepts of robotics and uses of robotics. The student performs robot programming tasks as an assistant or as part of a group.

Assessment criteria, good (3-4) (course unit)

Students are able to apply the most important concepts of robotics and identify potential applications of robotics. The student is able to independently design and implement basic robot programming.

Assessment criteria, excellent (5) (course unit)

The student understands the wide-ranging entities of robotics, generalizes, analyzes, looks for different solutions, and works constructively in the group.

Assessment scale

0-5

Enrolment period

02.12.2022 - 13.01.2023

Timing

09.01.2023 - 19.05.2023

Credits

5 op

Mode of delivery

Contact teaching

Unit

Mechanical Engineering

Campus

TAMK Main Campus

Teaching languages
  • Finnish
Degree programmes
  • Degree Programme in Mechanical Engineering
Teachers
  • Jere Siivonen
Person in charge

Jere Siivonen

Groups
  • 20I190

Objectives (course unit)

The students become familiar with the basic design techniques, functioning and programming of the robots. They can also apply their skills in product automation and material handling. After the course the students have a capability to program robots and to do programming applications. They can accomplish the most common tasks in material handling and welding, and they understand the role of sustainable development and digitalization at the area of robotics. Goals for product development (DFA, DFX etc.) and success factors, methods, for creative work, project work, simulation as a design tool, design methods, concept of systematic design.

Content (course unit)

Course consists of lectures and laboratory training, both on simulated environment and at the laboratory. Lectures focus on basic terminology of the robotics and programming principles as well as safety issues. In addition, the viewpoints of cost effective and user-friendly robotization of processes are included.

Further information (course unit)

Literature:
Robotiikka, Suomen Robotiikkayhdistys ry

Assessment criteria, satisfactory (1-2) (course unit)

The student recognizes basic concepts of robotics and uses of robotics. The student performs robot programming tasks as an assistant or as part of a group.

Assessment criteria, good (3-4) (course unit)

Students are able to apply the most important concepts of robotics and identify potential applications of robotics. The student is able to independently design and implement basic robot programming.

Assessment criteria, excellent (5) (course unit)

The student understands the wide-ranging entities of robotics, generalizes, analyzes, looks for different solutions, and works constructively in the group.

Assessment scale

0-5

Enrolment period

02.07.2022 - 09.09.2022

Timing

01.08.2022 - 30.12.2022

Credits

5 op

Mode of delivery

Contact teaching

Unit

Mechanical Engineering

Teaching languages
  • Finnish
Degree programmes
  • Degree Programme in Mechanical Engineering
Teachers
  • Jere Siivonen
Person in charge

Jere Siivonen

Groups
  • 20AI112

Objectives (course unit)

The students become familiar with the basic design techniques, functioning and programming of the robots. They can also apply their skills in product automation and material handling. After the course the students have a capability to program robots and to do programming applications. They can accomplish the most common tasks in material handling and welding, and they understand the role of sustainable development and digitalization at the area of robotics. Goals for product development (DFA, DFX etc.) and success factors, methods, for creative work, project work, simulation as a design tool, design methods, concept of systematic design.

Content (course unit)

Course consists of lectures and laboratory training, both on simulated environment and at the laboratory. Lectures focus on basic terminology of the robotics and programming principles as well as safety issues. In addition, the viewpoints of cost effective and user-friendly robotization of processes are included.

Further information (course unit)

Literature:
Robotiikka, Suomen Robotiikkayhdistys ry

Assessment criteria, satisfactory (1-2) (course unit)

The student recognizes basic concepts of robotics and uses of robotics. The student performs robot programming tasks as an assistant or as part of a group.

Assessment criteria, good (3-4) (course unit)

Students are able to apply the most important concepts of robotics and identify potential applications of robotics. The student is able to independently design and implement basic robot programming.

Assessment criteria, excellent (5) (course unit)

The student understands the wide-ranging entities of robotics, generalizes, analyzes, looks for different solutions, and works constructively in the group.

Assessment scale

0-5

Enrolment period

02.12.2021 - 11.01.2022

Timing

07.01.2022 - 13.05.2022

Credits

5 op

Mode of delivery

Contact teaching

Unit

Mechanical Engineering

Campus

TAMK Main Campus

Teaching languages
  • Finnish
Seats

0 - 40

Degree programmes
  • Degree Programme in Mechanical Engineering
Teachers
  • Jere Siivonen
Person in charge

Jere Siivonen

Groups
  • 19I190

Objectives (course unit)

The students become familiar with the basic design techniques, functioning and programming of the robots. They can also apply their skills in product automation and material handling. After the course the students have a capability to program robots and to do programming applications. They can accomplish the most common tasks in material handling and welding, and they understand the role of sustainable development and digitalization at the area of robotics. Goals for product development (DFA, DFX etc.) and success factors, methods, for creative work, project work, simulation as a design tool, design methods, concept of systematic design.

Content (course unit)

Course consists of lectures and laboratory training, both on simulated environment and at the laboratory. Lectures focus on basic terminology of the robotics and programming principles as well as safety issues. In addition, the viewpoints of cost effective and user-friendly robotization of processes are included.

Further information (course unit)

Literature:
Robotiikka, Suomen Robotiikkayhdistys ry

Assessment criteria, satisfactory (1-2) (course unit)

The student recognizes basic concepts of robotics and uses of robotics. The student performs robot programming tasks as an assistant or as part of a group.

Assessment criteria, good (3-4) (course unit)

Students are able to apply the most important concepts of robotics and identify potential applications of robotics. The student is able to independently design and implement basic robot programming.

Assessment criteria, excellent (5) (course unit)

The student understands the wide-ranging entities of robotics, generalizes, analyzes, looks for different solutions, and works constructively in the group.

Assessment scale

0-5