Persons
prof. Ing. Radislav Šmíd, Ph.D.
head_person_supervisor
Ing. Stanislav Drozd
Wireless instrumentation for structure health monitoring
Archive of PhD students
Ing. Ondřej Hanuš, Ph.D.
Department of Economics, Management and Humanities
Measurement and Monitoring of Energy Consumption in Aviation: Diagnostics and Detection of Degradations
Dissertation topics
Advanced methods for non-destructive testing and structural health monitoring
- Branch of study: Electrical Engineering and Communications
- Department: Department of Measurement
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Description:
With the rapid growth of processing power, advanced signal processing can be available in hand-held or stationary NDT (non-destructive testing) and diagnostic equipment. The aim of the thesis is to develop novel signal processing methods for improvement of detection and localization capabilities mainly based on multichannel, adaptive and/or parallel signal processing.
Advanced signal processing methods for non-destructive testing and diagnostics
- Branch of study: Electrical Engineering and Communications
- Department: Department of Measurement
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Description:
With the rapid growth of processing power an advanced signal processing can be available in hand-held or stationary NDT (non-destructive testing) and diagnostic equipment. The aim of the thesis is to develop novel signal processing methods for improvement of detection and localization capabilities based on multichannel, adaptive and/or parallel signal processing. http://measure.feld.cvut.cz/smid
Fault detection, machine condition and health monitoring
- Branch of study: Electrical Engineering and Communications
- Department: Department of Measurement
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Description:
Machine condition monitoring (MCM) and prognostics and health management (PHM) are considered an essential means to meet increasingly tightening requirements on the precision, quality, and performance of industrial processes. The thesis aims to improve the performance of degradations monitoring using innovative methods utilizing advanced simulation, modeling, and computational intelligence.
Metrologically traceable methods of photocurrent measurements for photonics
- Branch of study: Electrical Engineering and Communications
- Department: Department of Measurement
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Description:
The industrial applications of production and manipulation of light at the single- and few-photon levels are rapidly growing; these applications rely on the performance of the sources and detectors. The precise photocurrent measurement is an enabler for the characterization of such devices. The thesis aims to design new methods for precise measurement of low photocurrent with metrological traceability.
Non-destructive testing of aircraft construction parts
- Branch of study: Aeronautical and Space Engineering
- Department: Department of Measurement
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Description:
New approaches to non-destructive testing of aircraft construction parts, sensitivity improvement by means of signal processing. http://wireless.feld.cvut.cz/diagnolab/
Signal analysis for fault detection and diagnostics
- Branch of study: Aeronautical and Space Engineering
- Department: Department of Measurement
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Description:
The thesis aims to improve the performance of fault detection, condition monitoring and diagnostics for aerospace applications using innovative methods utilizing advanced signal processing, modeling, and computational intelligence.
Signal analysis for vibration based condition monitoring of engines and gears
- Branch of study: Aeronautical and Space Engineering
- Department: Department of Measurement
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Description:
Advanced signal analysis methods for vibration based condition monitoring of engines and gears, automation of diagnostics, detectability improvement. http://wireless.feld.cvut.cz/diagnolab/
