References
- 1. Adamczyk J., Będkowski K. (2005), Digital methods in remote sensing, SGGW Publishing House, Ed. 1, Warsaw.
- 2. Błachnio J., Bogdan M. (2010), A non-destructive method to assess condition of gas turbine blades, based on the analysis of bladesurface image. Russian Journal of Nondestructive Testing, Vol. 46, No. 11, 860-866.
- 3. Błachnio J., Kułaszka A. (2009), Computer aided visual inspection of the technical condition of gas turbine blades during their operation period. Journal of KONES, Vol. 16, No. 3, 23-30.
- 4. Bogdan M. (2009), Diagnostic investigations of gas turbine blades by digital processing of images acquired for their surfaces, PhD Thesis, Białystok Technical University, Białystok.
- 5. Bogdan M., Błachnio J., Derlatka M. (2009), Computer-aided method of diagnostics of gas turbine blades. Acta Mechanica et Automatica, vol 3, no. 4, 13-16.
- 6. Doros M. (2005), Image processing, Publishing Office of WIT, Warsaw.
- 7. Karczewski, Z. (2008), Endoscopic diagnostics of marine engines, Diagnostyka, 3(47), pp.19-23.
- 8. Pawlak W. (1983), The method for compensation of phase lag in analog low-pass filters, Scientific output of the Institute of Aviation, No. 92, Warsaw.
- 9. Pike L. M., Flower H. L. (2006), Gas turbine superalloy with improved fabricability. Advanced Materials and Processes, ASM International, Vol. 164, No. 6, 39 - 43.
- 10. Rafałowski M. (2004) Integrated image analysers as applied to measurements in lighting technology and to assess shapes of objects, Publishing Office of Białystok Technical University, Białystok.
- 11. Sankowski D., Mosorov V., Strzecha K. (2011), Industrial systems dedicated image processing and analysis, Polish Socientific Publishers, Warsaw.
- 12. Skočovský P., Podrábský T., Belan J. (2004), Operational degradation of aluminium-silicone layer of turbine blades made from Ni-based alloy, The Archive of Machinery Technology and Automation, Vol. 24, No. 1, 45 - 52.
- 13. Szczepanik R., Rządkowski R. (2012), A study on the Dynamics of aero enkine blades under different operating conditions, Air Force Institute of Technology, Warsaw.
- 14. Spychała J., Szczepankowski A., Kułaszka A., Sujka W. (2012), Report No23/34/2012, Air Force Institute of Technology, Warsaw.
- 15. Watkins C. D., Sadun A., Marenka S. (1995), Modern methods for image processing, WNT Publishing House, Warsaw.
- 16. Wróbel Z., Koprowski R. (2004), Practice in image processing within the MATLAB software, EXIT Academic Publishing House, Warsaw.
- 17. Zieliński T. P. (2005), Digital signal processing - from theory to practice, Transport and Communications Publishers, Warsaw.
- 18. Żółtowski B., Cempel C. (2004), Machinery fault diagnosis engineering, Polish Sosiety of Engineering Diagnosis, Warsaw