Introduce students with fundamental principles of optical measurement systems. 2. Train students for work with optical 2D and 3D measurement systems for dimensional measurement. Apply principles of of modern optical measuring instruments to innovative applications.

Student responsibilities:

Grading and evaluation of student work over the course of instruction and at a final exam:

Oral and written exam (theoretical knowledge) - 50% Practical test work in laboratory - 50%

Methods of monitoring quality that ensure acquisition of exit competences:

Overall students success in exams, and the willingness of students to other forms of engagement (research, discussions, project development and the like) will be analysed. Teachers work and quality of this program will be evaluated through university questionnaire within ISVU system.

Upon successful completion of the course, students will be able to (learning outcomes):

Learn the basic principles of dimensional measurement using optical methods. To preform 2D and 3D dimensional measurement using optical measuring systems. To preform calibration of optical measurement system. To use non-contact methods for non-standard measurement requirements. To apply statistical tools and methods for analysis, comparison and validation of obtained results.

Lectures

1. Interpretation of terms and systematization of optical measurement methods

2. Theoretical basis of measurement systems for non-contact dimensional measurements

3. Light sources and optical sensors.

4. Form and position measurements

5. Measurement of complex geometry

6. Calibration of 2D measurement systems

7. First exam

8. Interferometry measurements

9. Modern measurement systems (laser, trackers, multisenzors CMM, CT)

10. Fundamentals of 3D measurements

11. 3D Measurement data

12. Geometry analisys

13. Datum and coordinate system

14. Result analysis and measurement uncertainty

15. Second exam

Exercises

1. Introduction with optical measurement devices in Laboratory

2. Design of optical configurations.

3. Effect analysis of different light Sources and digital camera on measurement result.

4. 2D measurements using tool microscope.

5. Thread gauges measurements..

6. Calibration of 2D measurement systems (tool microscope)

7. First pratical exam

8. Calibration of parallel gauge blocks

9. Measurtements with laser systems

10. Work with 3D measurement system

11. Geometry forming

12. Dimensional measurements using measurement software

13. Dimensional measurements using measurement software

14. Analisys, comparison and validation of 2D and 3D measurement resuts

15. Second pratical exam

Compulsory literature:

K. Harding, "Handbook of Optical Dimensional Metrology", CRC Press, Taylor and Francis group, LLC, Boca Raton, Florida, 2013. ISBN: 978-4398-5481-5.

Yoshizawa, T.: "Handbook of Optical Metrology: Principles and Applications", CRC Press, 2009., ISBN 978-0521878586

R.Christoph, H. Neumann,"Multisensor coordinate Metrology",Sellier Druck GmbH,2007, Germany

Recommended literature: