Study Guide

Objective

Students will have in depth competence in programming different types of industrial robots for a variety of industrial applications.

Content

Programme structure
Forms of movement and movement commands
Programme variables and constants
Condition and repetition structures
I/O functions

Evaluation scale

0 - 5

Assessment criteria, approved/failed

With the help of the learning tasks, the two areas mentioned below are evaluated. The criteria for an acceptable level are as follows:

Operating environment knowledge
-The student knows how to program an industrial robot application and justify his programming method.

Reflection skills
-The student can realistically and critically assess the starting points, goals, results and own learning of their own activities.

An approved performance requires:
-Returns of learning tasks
- Self-assessment
- Course feedback

Prerequisites

Robotics

Objective

Students will have in depth competence in programming different types of industrial robots for a variety of industrial applications.

Content

Programme structure
Forms of movement and movement commands
Programme variables and constants
Condition and repetition structures
I/O functions

Materials

Opettajan osoittama materiaali

Evaluation scale

0 - 5

Assessment criteria, approved/failed

With the help of the learning tasks, the two areas mentioned below are evaluated. The criteria for an acceptable level are as follows:

Operating environment knowledge
-The student knows how to program an industrial robot application and justify his programming method.

Reflection skills
-The student can realistically and critically assess the starting points, goals, results and own learning of their own activities.

An approved performance requires:
-Returns of learning tasks
- Self-assessment
- Course feedback

Prerequisites

Robotics

Objective

Students will have in depth competence in programming different types of industrial robots for a variety of industrial applications.

Content

Programme structure
Forms of movement and movement commands
Programme variables and constants
Condition and repetition structures
I/O functions

Evaluation scale

0 - 5

Assessment criteria, approved/failed

With the help of the learning tasks, the two areas mentioned below are evaluated. The criteria for an acceptable level are as follows:

Operating environment knowledge
-The student knows how to program an industrial robot application and justify his programming method.

Reflection skills
-The student can realistically and critically assess the starting points, goals, results and own learning of their own activities.

An approved performance requires:
-Returns of learning tasks
- Self-assessment
- Course feedback

Prerequisites

Robotics

Objective

Students will have in depth competence in programming different types of industrial robots for a variety of industrial applications.

Content

Programme structure
Forms of movement and movement commands
Programme variables and constants
Condition and repetition structures
I/O functions

Evaluation scale

0 - 5

Assessment criteria, approved/failed

With the help of the learning tasks, the two areas mentioned below are evaluated. The criteria for an acceptable level are as follows:

Operating environment knowledge
-The student knows how to program an industrial robot application and justify his programming method.

Reflection skills
-The student can realistically and critically assess the starting points, goals, results and own learning of their own activities.

An approved performance requires:
-Returns of learning tasks
- Self-assessment
- Course feedback

Prerequisites

Robotics