Petr Páta
e-mail: pata@fel.cvut.cz office(s): T2:B3:556 phone(s): +420 2 2435 2248 fax(es): +420 2 3333 9801

Position:

Degrees:

  • Mgr. (M.Sc.), 1996, Charles University in Prague, Faculty of Mathematics and Physics
  • Ph.D., 2002, Czech Technical University in Prague, Faculty of Electrical Engineering
  • Doc. (Associated Professor), 2010, Czech Technical University in Prague, Faculty of Electrical Engineering

Networks:

  • ORCID ID: 0000-0002-6561-9088
  • ResearcherID: D-5817-2013
  • Scopus Author ID: 6701724174
  • Google Scholar ID: Petr Páta

Research area:

  • image photonics, scientific image data compression
  • acousto optic and optical systems with spatially variant PSF
  • hyperspectral imaging

Professional profile:

  • Technical manager of the THETIS project (European Space Agency).
  • Member of the international BOOTES (Burst Optical Observer and Transient Exploring System) team (since 1994).
  • Supervisor of the WILLIAM (WIde-field aLL-sky Image Analyzing Monitoring system) project
  • Leader of the MAIA (Meteor Automatic Imager and Analyser) project
  • Member of the Czech team for the ESA INTEGRAL satellite – OMC part.

Selected projects

  • Technical Manager, THETIS (Thermal Hyper-spectral Imaging System Breadboard Requirement Definition and Design), European Space Agency, 2016 - 2017.
  • PI, Multicriteria Optimization of Shift-Variant Imaging Systems, GAČR, 2017 – 2019.
  • PI, Nonlinear imaging systems with spatially variant point spread function, GAČR, 2014 - 2016.
  • Co-PI, GLORIA: GLObal Robotic telescopes Intelligent Array for e-Science, FP-7, 2011-2014.
  • Co-PI, Study of Sporadic Meteors and Weak Meteor Showers using Automatic Video Intensifiers Cameras, GAČR, 2009-2013.
  • Member of the team, Quality Evaluation Methods for Calomel Optical Elements, European Space Agency, 2011-2014.
  • Member of the team, Metodiky digitalizace národního filmového fondu (in Czech), NAKI MK ČR, 2011-2017.
  • Member of the team, Infrared Advanced Polarizer for Space and Other Applications, European Space Agency, 2014-2015.
  • Member of the team, New acoustooptic device based on Calomel for hyperspectral imaging in space applications, European Space Agency, 2010-2012.

Supervised and successfully defended doctoral theses

  • Jan Švihlík, Advanced Techniques for Image Noise Suppression, (2008)
  • Stanislav Vítek, Transfer Parameters of Image Sensors  - Modelling and Optimisation,  (2009)
  • Jaromír Schindler, Astronomical Image Data Compression, (2011)
  • Martin Řeřábek, Simulation and optimization of special imaging optical systems, (2013)
pata

List of Publications

2017
  • Janout P., Páta P., Skala P., Bednář J., PSF estimation of space-variant ultra-wide-field of view imaging systems, Applied Sciences, accepted 23.1.2017, in print, (2017).

  • Martin Blazek, Petr Pata, Adolf Inneman, and Petr Skala: Astronomical Tasks for Tests of X-Ray Optics in VZLUSAT-1 Nanosatellite, Advances in Astronomy, Vol. 2017, Article ID 3162892, 6 pages (2017)

2016
2015
2014
  • K. Fliegel, L. Krasula, P. Páta, J. Myslík, J. Pecák, M. Jícha, “System for Objective Assessment of Image Differences in Digital Cinema,” Proc. SPIE 9217, Applications of Digital Image Processing XXXVII, 92170I (September 23, 2014); doi:10.1117/12.2061016

  • Janout, P. – Páta, P.: Celooblohová kamera s extrémně širokoúhlým zorným polem. Jemná mechanika a optika. 2014, roč. 59, č. 10, s. 281-283. ISSN 0447-6441.

  • Anisimova, E. – Bednář, J. – Blažek, M. – Janout, P. – Fliegel, K. – et al.: Estimation and measurement of space-variant features of imaging systems and influence of this knowledge on accuracy of astronomical measurement. In Applications of Digital Image Processing XXXVII. Bellingham: SPIE, 2014, p. 92171E-1-92171E-13. ISBN 9781628412444.

2013
  • Anisimova, E. – Bednář, J. – Páta, P.: Efficiency of Wavelet Coefficients Thresholding Techniques used for Multimedia and Astronomical Image Denoising. In 18th 2013 International Conference on Applied Electronics. Pilsen: University of West Bohemia, 2013, p. 25-28. ISSN 1803-7232.ISBN 978-80-261-0166-6.

  • Anisimova, E. – Bednář, J. – Páta, P.: Astronomical Image Denoising using Curvelet and Starlet Transform. In Proceedings of 23th International Conference RADIOELEKTRONIKA 2013. Pardubice: University of Pardubice, 2013, p. 255-260. ISBN 978-1-4673-5516-2.

  • Anisimova, E. – Bednář, J. – Páta, P.: Image processing using the wavelet transform. Elektrorevue [online]. 2013, roč. 15, č. 4, s. 238-246. Internet: http://elektrorevue.cz/cz/download/zpracovani-obrazu-pomoci-vlnkove-transformace–image-processing-using-the-wavelet-transform-/. ISSN 1213-1539. (in Czech).

  • Anisimova, E. – Páta, P. – Blažek, M.: Stellar Object Detection Using the Wavelet Transform. Acta Polytechnica. 2011, vol. 51, no. 6, p. 9-12. ISSN 1210-2709.

  • Anisimova, E, Fliegel K, Blazek M, Janout P, Jan B, Pata P, Vitek S, Svihlik J.  2013.  Analysis of images obtained from space-variant astronomical imaging systems. Proc. SPIE. 8856:885607-885607-11.

2012
  • Vítek, S, Fliegel K, Páta P, Koten P. 2012. Utilization of Image Intensifiers in Astronomy. Acta Polytechnica. 52:56–58.

  • Fliegel, K, Vítek S, Jindra T, Páta P, Klíma M. 2012. Comparison of stereoscopic technologies in various configurations. {Applications of Digital Image Processing XXXV}. :849929-1–849929-9.

  • Anisimova, E, Páta P, Fliegel K, Klíma M. 2012. Comparison of the astronomical and multimedia image quality criteria. {Photonics Europe 2012: Optical Engineering, Imaging and Applications}. :843604-1–843604-8.

  • Švihlík, J, Fliegel K, Kukal J, Jehotová E, Páta P, Vítek S, Koten P.  2012.  Estimation of non-Gaussian noise parameters in the wavelet domain using the moment-generating function. Journal of Electronic Imaging. 21:023025-1–023025-15.

2011
  • Páta, P.: Influence of the Lossy Compression JPEG2000 standard on the Deformation of PSF. Acta Polytechnica. 2011, vol. 51, no. 6, p. 54-56. ISSN 1210-2709.

  • Páta, P.: CCD noise influence on JPEG2000 compression of astronomical images. In Photonics, Devices, and Systems V. Bellingham: SPIE, 2011, vol. 1, p. 1-6. ISSN 0277-786X.ISBN 978-0-8194-8953-1.

  • Hudec, R. – Spurny, M. – Krizek, M. – Řeřábek, M. – Páta, P. – et al.: Low Cost Optical All Sky Monitoring Camera: Further Developments and Tests. In Gamma Ray Bursts 2010. New York: AIP Conference Proceedings, 2011, p. 377-380. ISSN 0094-243X.ISBN 978-0-7354-0916-3.

  • Řeřábek, M, Páta P, Fliegel K. 2011. Enhancement of the accuracy of the astronomical measurements carried on the wide-field astronomical image data. {Applications of Digital Image Processing XXXIV}. :81351M-1–81351M-6.

  • Schindler, J, Páta P, Klíma M, Fliegel K. 2011. Astronomical Image Compression Techniques Based on ACC and KLT Coder. Acta Polytechnica. 51:97–102.

  • Vítek, S, Fliegel K, Páta P, Koten P. 2011. MAIA: Technical Development of a Novel System for Video Observations of Meteors. Acta Polytechnica. 51:109–111.

  • Fliegel, K, Švihlík J, Páta P, Vítek S, Koten P. 2011. Meteor automatic imager and analyzer: current status and preprocessing of image data. {Applications of Digital Image Processing XXXIV}. :81351S-1–81351S-7.

  • Fliegel, K, Vítek S, Klíma M, Páta P. 2011. Open source database of images DEIMOS: high dynamic range and stereoscopic content. {Applications of Digital Image Processing XXXIV}. :81351T-1–81351T-10.

  • Anisimova, E, Páta P, Blażek M, Fliegel K, Koten K, Vítek S. 2011. Wavelet Transform for Processing of Video from MAIA System. {Photonics, Devices, and Systems V}. 1:1–6.

  • Blažek, M. – Anisimova, E. – Páta, P.: Application of Wavelet Transform for Image Denoising of Spatially and Time Variable Astronomical Imaging Systems. Acta Polytechnica. 2011, vol. 51, no. 2, p. 11-15. ISSN 1210-2709.

  • Anisimova, E. – Páta, P. – Blažek, M.: Stellar Object Detection Using the Wavelet Transform. Acta Polytechnica. 2011, vol. 51, no. 6, p. 9-12. ISSN 1210-2709.

  • Klíma, M. – Fliegel, K. – Páta, P. – Vítek, S. – Blažek, M. – et al.: DEIMOS – an Open Source Image Database. Radioengineering. 2011, vol. 20, no. 4, p. 1016-1023. ISSN 1210-2512.

  • Koten, P, Fliegel K, Vítek S, Páta P.  2011.  Automatic Video System for Continues Monitoring of the Meteor Activity. Earth, Moon, and Planets. 108:69–76.

  • Klíma, M, Fliegel K, Páta P, Vítek S, Blażek M, Dostál P, Krasula L, Kratochvíl T, Slanina M, Říčný V et al..  2011.  DEIMOS – an Open Source Image Database. Radioengineering. 20:1016–1023.

  • Švihlík, J, Fliegel K, Koten P, Vítek S, Páta P.  2011.  Noise Analysis of MAIA System and Possible Noise Suppression. Radioengineering. 20:110–117.

2010
  • Vítek, S, Koten P, Páta P, Fliegel K. 2010. Double-Station Automatic Video Observation of the Meteors. Advances in Astronomy. 2010:1–4.

  • Švihlík, J, Fliegel K, Páta P, Vítek S, Koten P. 2010. Meteor automatic imager and analyzer: analysis of noise characteristics and possible noise suppression. Applications of Digital Image Processing XXXIII. :779821-1–779821-9.

  • Fliegel, K, Páta P, Vítek S, Koten P. 2010. Meteor automatic imager and analyzer: system design and its parameters. Applications of Digital Image Processing XXXIII. :77982B-1–77982B-11.

  • Fliegel, K, Klíma M, Páta P. 2010. New open source image database for testing and optimization of image processing algorithms. Optics, Photonics, and Digital Technologies for Multimedia Applications. :77231P-1–77231P-8.

  • Fliegel, K, Páta P, Klíma M, Blažek M, Havlín J. 2010. Open source database of images DEIMOS: high dynamic range images. Applications of Digital Image Processing XXXIII. :77981G-1–77981G-7.

  • Páta, P, Fliegel K, Klíma M, Blažek M, Řeřábek M. 2010. Utilization of consumer level digital cameras in astronomy. Applications of Digital Image Processing XXXIII. :77982H-1–77982H-12.

  • Hudec, R, Spurny M, Krizek M, Páta P, Slosiar R, Řeřábek M, Klíma M. 2010. Detection of GRBs and OTs by All-Sky Optical and SID Monitors. Advances in Astronomy. 2010:1–8.

  • Páta, P. 2010. Nobelova cena za fyziku 2009. Pokroky matematiky, fyziky a astronomie. 55:12–18.

2009
  • Řeřábek, M, Páta P. 2009. Advanced processing of astronomical images obtained from optical systems with ultra wide field of view. 4th EOS Topical Meeting on Advanced Imaging Techniques. :78–79.

  • Hudec, R, Spurny M, Krizek M, Páta P, Slosair R, Řeřábek M. 2009. Alternative methods for detection of GRBs. Proceedings of the 40th Conference on Variable Stars Research. :7–11.

  • Hudec, R, Spurny M, Krizek P, Páta P, Řeřábek M. 2009. Low-Cost Optical All-Sky Monitor For Detection of Bright OTs of GRBs. Gamma-Ray Burst: Sixth Huntsville Symposium. :215–217.

  • Řeřábek, M, Páta P. 2009. Advanced processing of astronomical images obtained from optical systems with ultra wide field of view. {Applications of Digital Image Processing XXXII}. :1–4.

  • Řeřábek, M, Páta P, Fliegel K, Koten P. 2009. Processing and Compression of Astronomical Images from optical All-Sky System. {4th EOS Topical Meeting on Advanced Imaging Techniques}. :66–67.

2008
  • Švihlík, J, Páta P. 2008. Elimination of Thermally Generated Charge in Charged Coupled Devices Using Bayesian Estimator. Radioengineering. 17:119–124.

  • Fritsch, L, Páta P. 2008. 3D KLT compression algorithm for camera security systems. Photonics Prague 2008, The 6th International Conference on Photonics, Devices and Systems. :1–6.

  • Řeřábek, M, Páta P. 2008. The space variant PSF for deconvolution of wide-field astronomical images. Proceedings of SPIE – 7015 – Adaptive Optics Systems. :70152G-1–70152G-12.

  • Švihlík, J, Řeřábek M, Páta P. 2008. Bayesian approach to estimation of the map of dark current in wavelet domain. {Proceedings of SPIE – 7019 – Advanced Software and Control for Astronomy II}. :701932-1–701932-12.

  • Páta, P. 2008. KLT Coder for Compression of Security Images. {Proceedings of 42nd Annual 2008 IEEE International Carnahan Conference on Security Technology}. :381–386.

  • Řeřábek, M, Páta P. 2008. Modeling of the widefield space variant security systems. {Proceedings of 42nd Annual 2008 IEEE International Carnahan Conference on Security Technology}. :121–125.

  • Řeřábek, M, Páta P, Koten P. 2008. Processing of the Astronomical Image Data obtained from UWFC Optical Systems. {Proceedings of SPIE – 7076 – Image Reconstruction from Incomplete Data V}. :80–90.

  • Řeřábek, M, Páta P. 2008. PSF model of wide-field optical system for restoration od space (in)variant astronomical image data. {Photonics Prague 2008, The 6th International Conference on Photonics, Devices and Systems}. :87.

  • Páta, P, Řeřábek M. 2008. The Lossy Compression Technique Based on KLT. {Proceedings of SPIE – 7019 – Advanced Software and Control for Astronomy II}. :701933-1–701933-11.

2007
  • Páta, P, Řeřábek M. 2007. Quality Measurement of Compressed Astronomical Images by the Coder Based on the Karhunen-Loeve Transform. {Thidr EOS Topical Meeting on Advanced Imaging Techniques}. 1:151–152.

  • Řeřábek, M, Páta P, Koten P, Fliegel K, Švihlík J. 2007. Space Variant Point Spread Function Modeling for Astronomical Image Data Processing. {Astronomical Adaptive Optics Systems and Applications III}. 6691:66910T-01–66910T-10.

  • Klíma, M, Páta P, Fliegel K, Hanzlík P. 2007. Image Quality Evaluation in Security Imaging Systems. IEEE Aerospace and Electronic Systems Magazine. 22:22–25.

  • Řeřábek, M, Páta P, Koten P. 2007. High Order Optical Aberrations Influence to Precision of Astronomical Image Data Processing. {Adaptive Optics for Laser Systems and Other Applications}. 1:658409-01–658409-12.

  • Řeřábek, M, Páta P, Koten P. 2007. Image data processing of astronomical UWFC systems. {Thidr EOS Topical Meeting on Advanced Imaging Techniques}. 1:70–71.

2006
  • Vítek, S, Páta P. 2006. Analysis of Telescope Performance – MTF Approach. Photonics, Devices, and Systems III. :22-1–22-5.

  • Páta, P. 2006. Compression of Astronomical Images Based on the Karhunen – Loeve Transform. {Proceedings of the Eighth IASTED International Conference on Signal and Image Processing}. :133–138.

  • Švihlík, J, Páta P. 2006. Dark Frame Correction Via Bayesian Estimator in the Wavelet Domain. {2006 IEEE International Symposium on Signal Processing and Information Technology}. :55–58.

  • Hanzlík, P, Páta P. 2006. Derivate Statistics for Karhunen-Loeve Transform. {Photonics, Devices, and Systems III}. :20-1–20-7.

  • Švihlík, J, Páta P. 2006. PDF Model of Multimedia and Scientific Images in the Wavelet Domain. {Proceedings ELMAR 2006}. :17–20.

  • Hozman, J, Páta P, Novák J, Novák P, Mikš A. 2006. Program pro vyhodnocení MTF zobrazovacích soustav na základě deformace vlnoplochy pomocí Shack-Hartmanova vlnového senzoru.

  • Hozman, J, Páta P. 2006. Program pro vyhodnocení MTF zobrazovacích soustav z obrazu bodu

  • Hozman, J, Páta P. 2006. Program pro vyhodnocení MTF zobrazovacích soustav z obrazu kříže.

  • Schindler, J, Páta P. 2006. Spatially Adaptive DWT for Image Compression. {Photonics, Devices, and Systems III}. :21-1–21-6.

  • Páta, P. 2006. Suboptimal Karhunen-Loeve Transform for Compression of Astronomical Images. {2006 IEEE International Symposium on Signal Processing and Information Technology}. :332–337.

2005
  • van Voorthuijsen, G, van Hoof H, Klíma M, Roubík K, Bernas M, Páta P. 2005. CCTV Effectiveness Study. Proc. of 39 IEEE ICCST. :105–108.

  • Vítek, S, Páta P. 2005. Analysis of Telescope Performance – MTF Approach. {Photonics Prague 2005}. :215.

  • Hanzlík, P, Páta P. 2005. Derivate Statistics for Karhunen-Loeve Transform. {Photonics Prague 2005}. :155.

  • Řeřábek, M, Páta P. 2005. Experimentální a simulační sada úloh z fotoniky. {13th Annual Conference Proceedings of Technical Computing Prague 2005}.

  • Klíma, M, Páta P, Fliegel K. 2005. Image Quality Evaluation in Applied TV Security Systems. {Radioelektronika 2005 – Conference Proceedings}. :61–64.

  • Hanzlík, P, Páta P, Schindler J, Vítek S. 2005. Influence of Lossy Compression Techniques on Processing Precision of Astronomical Images. {Proceedings of the 2005 IEEE International Symposium on Signal Processing and Information Technology}. :346–351.

  • Klíma, M, Bernas M, Husník L, Páta P, Roubík K. 2005. Qualitative Aspects of Image Compression Methods in Multimedia Systems. {Proceedings of Workshop 2005 – Part A,B}. :188–189.

  • Schindler, J, Páta P. 2005. Spatially Adaptive DWT for Image Compression. {Photonics Prague 2005}. :117.

  • Klíma, M, Páta P, Fliegel K, Hanzlík P. 2005. Subjective Image Quality Evaluation in Security Imaging Systems. {Proc. of 39 IEEE ICCST}. :19–22.

2004
  • Hanzlík, P, Páta P. 2004. Behind the Structure of Video VQ-Coder. Radioengineering. 13:26–31.

  • Castro-Tirado, A, Mateo Sanguino TJ, de Ugarte Postigo A, Castro Cerón JM, Jelínek M, Kubánek P, Hudec R, Vítek S, Páta P, Bernas M et al.. 2004. BOOTES: A Stereoscopic and Robotic Ground-support Facility for the INTEGRAL Era. The 5th INTEGRAL Workshop on The INTEGRAL Universe. :637–640.

  • Hanzlík, P, Páta P. 2004. 3rd Generation Approach to Video Compression for Multimedia. {MATLAB 2004 – Sborník příspěvků 12. ročníku konference}. 1-2:175–182.

  • Vítek, S, Hozman J, Páta P. 2004. Analyse of Transfer Function of Image Sensors. {The INTEGRAL Universe}. :208.

  • Vítek, S, Páta P, Hozman J. 2004. Analyse of Transfer Function of Image Sensors. {The 5th INTEGRAL Workshop on The INTEGRAL Universe}. :801–804.

  • Hejkal, V, Páta P. 2004. Basic interpolation methods for Bayer CFA . {Digital Technologies 2004}. :1–4.

  • Castro-Tirado, A, Meteo Sanguino T, de Ugarte Postigo A, Castro Cerón JM, Páta P, Bernas M, Hudec R, Jelínek M, Vítek S, Kubánek P. 2004. BOOTES: Recent Scientific Results and Technological Developments for the INTEGRAL and SWIFT Era. {The INTEGRAL Universe}. :142.

  • Hozman, J, Páta P. 2004. Classification Possibilities of Blood Serum Crystallograms in the KLT Domain. {Biomedical Engineering}. :161–164.

  • Bernas, M, Weinlich J, Páta P, Hudec R, Castro-Tirado A. 2004. Compression of Astronomical Images. {The INTEGRAL Universe}. :171.

  • Bernas, M, Páta P, Weinlich J, Hudec R, Castro-Tirado A. 2004. Lossy Compression of Astronomical Images. {The 5th INTEGRAL Workshop on The INTEGRAL Universe}. :829–832.

  • Klíma, M, Páta P, Tichá D. 2004. Optical 2D JTC Processor. {Nekonvenčné technológie 2004}.

  • Páta, P, Bernas M, Castro-Tirado A. 2004. PCA Based Compression Technique for the BOOTES Image Data. {The INTEGRAL Universe}. :181.

  • Páta, P, Klíma M, Schindler J. 2004. Simulace zpracování optické obrazové informace v MATLABu. {MATLAB 2004 – Sborník příspěvků 12. ročníku konference}. 1-2:447–452.

  • Vítek, S, Vejdělek J, Páta P, Bečvář P, Castro-Tirado A. 2004. The System for Autofocusing of Wide-Field Cameras. {The INTEGRAL Universe}. :207.

  • Vítek, S, Vejdělek J, Páta P, Bečvář P, Castro-Tirado A. 2004. The System for Autofocusing of Wide-Field Cameras. {The 5th INTEGRAL Workshop on The INTEGRAL Universe}. :797–799.

  • Hanzlík, P, Páta P. 2004. Video Coder based on Vector Quantization. {Proceedings of Workshop 2004}. A:288–289.

  • Hanzlík, P, Páta P. 2004. Video Compression for Multimedia Using Karhunen – Loeve Transform and Vector Quantization. {Digital Technologies 2004}. :1–4.

2003
  • Páta, P, Bernas M, Castro-Tirado A, Hudec R. 2003. Optical Transient Monitor (OTM) for BOOTES Project. AIP Conference Proceedings 662. :538–540.

  • Páta, P, Bernas M, Castro-Tirado A, Hudec R. 2003. Effect of BOOTES Image Data Compression using Karhunen-Loeve Decomposition upon Astrometry Measurement Accuracy. {Proceedings Symposium New Visions of the X-ray Universe in the XMM-Newton and Chandra Era}. :1–4.

  • Páta, P, Klíma M. 2003. Efficient Method for Security Image Data Compression. {Proceedings 37th ANNUAL 2003 International Carnahan Conference on Security Technology}. :456–459.

  • Castro-Tirado, A, Mateo Sanguino TJ, de Ugarte Postigo A, Jelínek M, Kubánek P, Hudec R, Vítek S, Páta P, Berná JA. 2003. GRB 030115, simultaneous observations by BOOTES-1. GRB Coordinates Network. 1826.

  • Castro-Tirado, A, de Ugarte Postigo A, Mateo Sanguino TJ, Fernandez Palomo MT, Jelínek M, Kubánek P, Hudec R, Vítek S, Páta P, Berná JA. 2003. GRB 030226 simultaneous optical observations. GRB Coordinates Network. 1826.

  • Páta, P. 2003. Karhunen-Loeve Transform as a Base of BOOTES Image Data Coder. {Proceedings of the 5th COST 276 Workshop}. :52–54.

  • de Ugarte Postigo, A, Mateo Sanguino TJ, Castro Cerón JM, Páta P, Bernas M, Jelínek M, Hudec R, McBreen S, Berná JA, García Dabó CE et al.. 2003. Recent Developments in the BOOTES Experiment. {AIP Conference Proceedings 662}. :553–555.

  • Castro Cerón, JM, Postigo AD, Garcia-Dabo CE, Sanguino TJMS, Páta P, Bernas M, Jelinek M, Hudec R, Berná JA, Gorosabel J et al.. 2003. The BOOTES experiment in support of the Gran Telescopio Canarias (GTC) in the study of the high energy universe. {SCIENCE WITH THE GTC 10-M TELESCOPE}. :77–80.

  • Hozman, J, Fliegel K, Vítek S, Páta P. 2003. The Effect of Image Sensor Configurations on Image Quality. {Recent Trends in Multimedia Information Processing}. :272–275.

  • Páta, P. 2003. The Scientific Image Data Optical Processing. {Proceedings of Workshop 2003}. A:274–275

  • Páta, P, Bernas M, Castro-Tirado A, Hudec R. 2003. Two versions of Optical Transient Monitor Software for BOOTES Experiment. {Proceedings Symposium New Visions of the X-ray Universe in the XMM-Newton and Chandra Era}. :1–4.

  • Hanzlík, P, Páta P. 2003. Video VQ-kodér – implementace v MATLABu. {MATLAB 2003}. :173–179.

2002
  • Klíma, M, Páta P, Bernas M, Pazderák J. 2002. Highly-Efficient Image Compression Techniques and Subjective Image Quality. Radioelektronika 2002. 1:3–6.

  • Páta, P. 2002. BOOTES – pozemní doprovodný experiment družice INTEGRAL.

  • Páta, P, Roubík K. 2002. Computer Based Assessment of Health Care Quality. {Biomedical Engineering and Education}. :135–137.

  • Castro-Tirado, A, Castro Cerón JM, Gorosabel J, Páta P, Soldán J, Hudec R, Jelínek M, Topinka M, Bernas M. 2002. Detection of an optical transient following the 13 March 2000 short/hard gamma-ray burst. Astronomy and Astrophysics. 393:L55–L59.

  • Klíma, M, Páta P, Kaiser J. 2002. Education of Photonic Methods of Information Processing at the Department of Radioelectronics, Faculty of Electrical Engineering. {Proceedings of Workshop 2002}. A:208–209.

  • Klíma, M, Páta P, Kaiser J. 2002. Education of Photonic Methods of Information Processing. {Photonics Prague 2002}. :100.

  • Klíma, M, Páta P, Kaiser J. 2002. Education of Photonic Metohods of Information Processing. {SPIE Proceedings, Vol. 5036}. :662–667.

  • Páta, P. 2002. Elektronová optika.

  • Páta, P. 2002. Fotometrické principy, zdroje světla a osvětlování.

  • Castro-Tirado, A, Castro Cerón JM, de Ugarte Postigo A, Hudec R, Jelínek M, Bernas M, Páta P, Berná JA. 2002. GRB 020531, simultaneous optical observations. GCN GRB Observation Report. 1430:1–5.

  • Vítek, S, Páta P, Hozman J. 2002. Image Compression Methods as an Imaging System. {Telecommunications and Signal Processing TSP – 2002}. :164–167.

  • Páta, P. 2002. Karhunenův-Loeveho rozklad multimediálních obrazových dat. {8. mezinárodní vedecká konferencia COFAX-TELEKOMUNIKÁCIE 2002 Zborník prednášok}. :P391–P392.

  • Páta, P. 2002. KLT kodér v MATLABu. {MATLAB 2002}. II:425–429.

  • Vítek, S, Páta P, Hozman J. 2002. Nové metody hodnocení obrazové kvality. {MATLAB 2002}. II:584–588.

  • Klíma, M, Páta P. 2002. Optical JTC Applications in Biomedical Image Processing. {Biomedical Engineering and Education}. :123–124.

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