doc. Ing. Antonín Platil, Ph.D.
Position
Phone number
Room
Publications
Curriculum Vitae:
currently with the Department of Measurement, FEE-CTU
2010 - habilitation (docent / associate professor)
2002 - defended PhD thesis
1998 - 6 month stay in SensoTech GmbH, Magdeburg, Germany
1997 - graduated from Czech Technical University as Ing. (~MSc.), entered PhD study at Dept. of Measurement.
Research interests:
Magnetic measurements and magnetic sensors, applications
For a view of interesting stuff see selected projects here
Teaching activity:
Current:
- Pokročilé senzory, Advanced Sensors,
- Automobilové senzory a sítě, Automotive sensors and networks
- Senzory a sítě
- Virtuální instrumentace, Virtual instrumentation,
Formerly:
Senzory a převodníky, Sensors and Transducers,
Senzory a systémy pro sběr dat, Sensors and Data Acquisition
Publications:
Some recent publications:
Conference and journal papers:
- Platil, A.; Novotný, D.; Ripka, P.: Improved Method for Linear Position Sensing through Conductive Wall, In: The XIV. European Magnetic Sensors and Actuators Conference - Book of Abstracts. Košice: Univerzita Pavla Jozefa Šafárika, 2024. p. 179-180. ISBN 978-80-574-0340-1.
- Novotný, D.; Platil, A.; Janošek, M.; Petrucha, V.: Novel Power Saving Algorithm for AMR Magnetometer with Fast Settling Feedback Loop, In: The XIV. European Magnetic Sensors and Actuators Conference - Book of Abstracts. Košice: Univerzita Pavla Jozefa Šafárika, 2024. ISBN 978-80-574-0340-1.
- Novotný, D.; Petrucha V.; Dressler, M.; Platil, A.: Characterization of a Digital AMR Magnetometer for Space Applications. IEEE Transactions on Instrumentation and Measurement. 2021, 70(1), ISSN 0018-9456. DOI 10.1109/TIM.2020.3043867.
- Novotný, D.; Petrucha V.; Dressler, M.; Platil, A.: AMR Magnetometer With Digital Feedback for Space Applications. In: 2020 IEEE International Instrumentation and Measurement Technology Conference (I2MTC 2020). Dubrovnik, 2020-05-25/2020-05-28. Piscataway, NJ: IEEE, 2020. ISBN 978-1-7281-4460-3. DOI 10.1109/I2MTC43012.2020.9129039.
- Petrucha, V.; Fúra, V.; Platil, A.: Cross-field Effect in a Triaxial AMR Magnetometer with Vector and Individual Compensation of a Measured Magnetic Field, In: IEEE Transactions on Magnetics. 2017, 53(4), 1-5. ISSN 0018-9464.
- Fúra, V.; Petrucha, V.; Platil, A.: Construction of an AMR magnetometer for car detection experiments, In: Proceedings of 5th International Conference on Materials and Applications for Sensors and Transducers (IC-MAST2015). Bristol: IOP Institute of Physics, 2016. IOP Conference Series: Materials Science and Engineering. ISSN 1757-899X.
- Janošek, M.; Platil, A.; Vyhnánek, J.: Simple estimation of dipole source z-distance with compact magnetic gradiometer In: Proceedings of 5th International Conference on Materials and Applications for Sensors and Transducers (IC-MAST2015). Bristol: IOP Institute of Physics, 2016. IOP Conference Series: Materials Science and Engineering. ISSN 1757-899X.
- Janošek, M.; Vyhnánek, J.; Platil, A.; Petrucha, V.: Compact Full-tensor Fluxgate Gradiometer, In: Journal of Electrical Engineering. 2015, 66(7/s), 146-148. ISSN 1335-3632.
- Janošek, M.; Vyhnánek, J.; Platil, A.: Compact magnetic gradiometer and its astatization, In: Procedia Engineering Special Issue Eurosensors 2015. Oxford: Elsevier Ltd, 2015. pp. 1249-1252. ISSN 1877-7058.
- Janošek, M.; Platil, A.; Vyhnánek, J.: The Effect of Sensor Size on Axial Gradiometer Performance, In: IEEE Transactions on Magnetics. 2015, 51(1), ISSN 0018-9464.
- Ripka, P. - Butta, M. - Platil, A.: Temperature Stability of AMR Sensors In: Sensor Letters. 2013, vol. 11, no. 1, p. 74-77. ISSN 1546-198X.
Lecture notes (skripta) and books:
- A.Platil, P. Ripka: Senzory a převodníky, Vydavatelství ČVUT v Praze 2004.
- S. Ďaďo, L. Bejček, A.Platil: Měření průtoku a výšky hladiny, BEN, Praha 2005, ISBN 80-7300-156-X
Participation in grants:
Current:
-none-
Older:
- TAČR-CK TE02000202 Advanced sensors (2014-2019)
- SGS19/177/OHK3/3T/13 Design and evaluation of radiation tolerant magnetometer - (as supervisor of main researcher Ing. David Novotný) (2019-2021)
- SGS17/192/OHK4/3T/13 Vylepšený průmyslový akustický plynový teploměr (2017-2019)
- SGS16/170/OHK3/2T/13 Zařízení pro měření teploty pomocí ultrazvuku (2016-2017)
- SGS14/153/OHK3/2T/13 Systémy zpracování a fůze dat pro diagnostické a měřicí aplikace (2014-2015)
- SGS12/155/OHK3/2T/13 Pokročilé metody zpracování dat a signálů pro diagnostiku (2012-2013)
- SGS10/207/OHK3/2T/13 Digitalizace, synchronizace a zpracování signálu v senzorech a senzorových sítích (2010-2011)
- SGS12/194/OHK3/3T/13 Aplikace magnetických senzorů pro přesná měření (2012-2014)
- SGS10/205/OHK3/2T/13 Kompaktní senzory gradientu magnetického pole - vývoj a aplikace (2010-2011)
- NMP2-CT-2003-505265 SENPIMAG “A novel technology for ultra sensitive reliable integrated magnetic sensors” (2003-2005)
- GACR 102/01/1335 “Measurement of Soft Mag. Material Properties” (2001-2003)
- EU Leonardo CZ/PP-134026 "Modular Courses on Modern Sensors" (2000-2003)
- CTU 0211813 "Development of the GMI Permalloy Sensor and its Practical Aplications" (2002)
- CTU 300009503 "Sampling Measurement of Dynamic Hysteresis Loops" (2001)
- GACR 102/99/0775 "Metrological Assurance of Precision Digitizers" (1999-2001)
- MSMT Kontakt ME 275 "Fluxgate Magnetometer" (1998-2000)
- IGA MZCR 4323-3 "Exposition to industrial aerosols and their magnetometric detection" (main applicant: Hygienic centre of the City of Prague) (1997-1999)
- GACR 102/96/1251 "Magnetic sensors" (1996-1998)
Hobbies:
- science fiction
- computers in general
- astronomy
- history of WW2
Theses Topics
► Fluxgate gradiometer calibration [magnetic sensor, fluxgate, gradient, calibration]
► Multipoint calibration of electronic compass [magnetic sensor, fluxgate, compass, calibration]
► Magnetic FEM modeling [FEM, finite element modeling, landmines, magnet, sensors]