Course Catalog 2008-2009 Basic
Basic	Pori	International	Postgraduate	Open University
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Course Catalog 2008-2009

TTE-5106 Design of Robot Systems, 6 cr

Course´s person responsible

Jyrki Latokartano

Implementations

Lecture times and places Target group recommended to

Implementation 1

Per 3 :
Wednesday 9 - 11, K3114

Requirements

Student need to complete extensive group projectwork based on real life robotising case defined by selected industrial partners.

Principles and baselines related to teaching and learning

Objectives

To give the student the required skills in applying modern 3D-design, simulation and off-line programming tools in robot cell design.

Content

Content Core content Complementary knowledge Specialist knowledge

1. To learn to design effective robot workcells to perform specified task based on the knowledge gained in prerequisite courses. To be able to perform comparison between different workcell alternatives. Requires deeper understanding in performance values of different robot types and sizes. To be able to perform measures and analysis in workcell performance and to optimize it.

2. Student gets acquainted with modern 3-D simulation tools and learns to use them effectively in robot cell design and simulation. Simulation tools are used to verify workcell performance by using different settings and basig data. When operator presence is required, human manikin simulation can also be implemented.

3. Workcell functionality is demonstrated and tested by comprehensive robot programming to perform complete workcell sequence and to simulate selected processes. Workcell performance is increased by optimisation of robot programs based on simulation data and process analysis. In some assignments robot programs can also be downloaded to real life workcell. In this case assignment includes also calibration of the workcell model.

4. Groups get familiar with concurrent engineering in real life industrial development assignment. Students learn project management while interacting with customers and within own project group. Project management platforms can be used to optimize resource allocation and schedueling.

Evaluation criteria for the course

Course assesment is based entirely on projectwork. Grading is based on project simulation model, project report and seminar presentations.

Assessment scale:

Numerical evaluation scale (1-5) will be used on the course

Study material

Type Name Author ISBN URL Edition, availability, ... Examination material Language

Lecture slides Jyrki Latokartano English

Prerequisites

Course	O/R
TTE-5016 Introduction to Robotics and Automation	Obligatory
TTE-5036 Control in Robotics and Automation	Obligatory
TTE-7010 Johdanto mallinnukseen ja simulointiin (CAD/CAM)	Obligatory

Prerequisite relations (Requires logging in to POP)

Correspondence of content

Course	Corresponds course	Description
TTE-5106 Design of Robot Systems, 6 cr	2702701 Design of Robot Systems, 4 cu

More precise information per implementation

Description Methods of instruction Implementation

Implementation 1 Course start lecture 3.12.08. Several exercises before Christmas, until 16.12. Moodle key send to participants latest 1st Dec. Remember to take course TTE-7016 or TTE-7010 LATEST on period 3. Lectures
Excercises
ITC Utilization
Practical works
Laboratory assignments
Other contact teaching
Contact teaching: 2 %
Distance learning: 6 %
Self-directed learning: 0 %

Last modified 09.07.2008

Modifier Jyrki Latokartano

	Lecture times and places	Target group recommended to
Implementation 1	Per 3 : Wednesday 9 - 11, K3114

Content	Core content	Complementary knowledge	Specialist knowledge
1.	To learn to design effective robot workcells to perform specified task based on the knowledge gained in prerequisite courses.	To be able to perform comparison between different workcell alternatives. Requires deeper understanding in performance values of different robot types and sizes.	To be able to perform measures and analysis in workcell performance and to optimize it.
2.	Student gets acquainted with modern 3-D simulation tools and learns to use them effectively in robot cell design and simulation.	Simulation tools are used to verify workcell performance by using different settings and basig data.	When operator presence is required, human manikin simulation can also be implemented.
3.	Workcell functionality is demonstrated and tested by comprehensive robot programming to perform complete workcell sequence and to simulate selected processes.	Workcell performance is increased by optimisation of robot programs based on simulation data and process analysis.	In some assignments robot programs can also be downloaded to real life workcell. In this case assignment includes also calibration of the workcell model.
4.	Groups get familiar with concurrent engineering in real life industrial development assignment.	Students learn project management while interacting with customers and within own project group.	Project management platforms can be used to optimize resource allocation and schedueling.

Type	Name	Author	ISBN	URL	Edition, availability, ...	Examination material	Language
Lecture slides		Jyrki Latokartano					English

	Description	Methods of instruction	Implementation
Implementation 1	Course start lecture 3.12.08. Several exercises before Christmas, until 16.12. Moodle key send to participants latest 1st Dec. Remember to take course TTE-7016 or TTE-7010 LATEST on period 3.	Lectures Excercises ITC Utilization Practical works Laboratory assignments Other contact teaching	Contact teaching: 2 % Distance learning: 6 % Self-directed learning: 0 %

Course Catalog 2008-2009 Basic

Course Catalog 2008-2009