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ORCIDAleksander Nawrat
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2020 – today
- 2023
[c17]Pawel Woronow, Karol Jedrasiak, Krzysztof Daniec, Hubert Podgorski, Aleksander Nawrat:
Device for People Detection and Tracking Using Combined Color and Thermal Camera. FICC (2) 2023: 862-874- 2022
- [c16]Adam Galuszka, Aleksander Nawrat, Eryka Probierz, Karol Jedrasiak, Tomasz Wisniewski, Katarzyna Klimczak:
On the Application of Multidimensional LSTM Networks to Forecast Quarterly Reports Financial Statements. FTC (1) 2022: 615-624
2010 – 2019
- 2018
- [c15]Dawid Sobel, Karol Jedrasiak, Aleksander Nawrat:
GPU Video Stream Magnification as a Tool for Touchless Object Vibration Measurement. ACIIDS (Extended Posters) 2018: 377-386 - [c14]Dawid Sobel, Karol Jedrasiak, Aleksander Nawrat:
Multi-camera Photometric Simulation for Creation of 3D Object Reconstruction System. ICCVG 2018: 187-198 - 2016
- [c13]Mariusz Domzal, Dawid Sobel, Jan Kwiatkowski, Karol Jedrasiak, Aleksander Nawrat:
Efficient Motion Magnification. ACIIDS (2) 2016: 477-486 - [c12]Jan Kwiatkowski, Krzysztof Daniec, Karol Jedrasiak, Dawid Sobel, Mariusz Domzal, Aleksander Nawrat:
Real Time Thermogram Enhancement by FPGA-Based Contrast Stretching. ACIIDS (2) 2016: 487-496 - 2014
- [c11]Karol Jedrasiak, Mariusz Andrzejczak, Aleksander Nawrat:
SETh: The Method for Long-Term Object Tracking. ICCVG 2014: 302-315 - [c10]Artur Ryt, Dawid Sobel, Jan Kwiatkowski, Mariusz Domzal, Karol Jedrasiak, Aleksander Nawrat:
Real-Time Laser Point Tracking. ICCVG 2014: 542-551 - [c9]Dawid Sobel, Jan Kwiatkowski, Artur Ryt, Mariusz Domzal, Karol Jedrasiak, Lukasz Janik, Aleksander Nawrat:
Range of Motion Measurements Using Motion Capture Data and Augmented Reality Visualisation. ICCVG 2014: 594-601 - 2013
- [c8]Adam Czornik, Aleksander Nawrat, Michal Niezabitowski
:
On the stability of Lyapunov exponents of discrete linear systems. ECC 2013: 2210-2213 - [p14]Artur Babiarz, Robert Bieda, Karol Jedrasiak, Aleksander Nawrat:
Machine Vision in Autonomous Systems of Detection and Location of Objects in Digital Images. Vision Based Systemsfor UAV Applications 2013: 3-25 - [p13]Robert Bieda, Krzysztof Jaskot, Karol Jedrasiak, Aleksander Nawrat:
Recognition and Location of Objects in the Visual Field of a UAV Vision System. Vision Based Systemsfor UAV Applications 2013: 27-45 - [p12]Zygmunt Kus, Aleksander Nawrat:
Object Tracking for Rapid Camera Movements in 3D Space. Vision Based Systemsfor UAV Applications 2013: 57-76 - [p11]Zygmunt Kus, Aleksander Nawrat:
Object Tracking in a Picture during Rapid Camera Movements. Vision Based Systemsfor UAV Applications 2013: 77-91 - [p10]Damian Bereska, Krzysztof Daniec, Karol Jedrasiak, Aleksander Nawrat:
Gyro-Stabilized Platform for Multispectral Image Acquisition. Vision Based Systemsfor UAV Applications 2013: 115-121 - [p9]Slawomir Fras, Karol Jedrasiak, Jan Kwiatkowski, Aleksander Nawrat, Dawid Sobel:
Omnidirectional Video Acquisition Device (OVAD ). Vision Based Systemsfor UAV Applications 2013: 123-136 - [p8]Damian Bereska, Krzysztof Daniec, Slawomir Fras, Karol Jedrasiak, Mateusz Malinowski, Aleksander Nawrat:
System for Multi-axial Mechanical Stabilization of Digital Camera. Vision Based Systemsfor UAV Applications 2013: 177-189 - [p7]Dawid Cedrych, Adam Galuszka, Marcin Pacholczyk, Krzysztof Skrzypczyk, Aleksander Nawrat:
Probabilistic Approach to Planning Collision Free Path of UAV. Vision Based Systemsfor UAV Applications 2013: 191-203 - [p6]Krzysztof Daniec, Pawel Iwaneczko, Karol Jedrasiak, Aleksander Nawrat:
Prototyping the Autonomous Flight Algorithms Using the Prepar3D® Simulator. Vision Based Systemsfor UAV Applications 2013: 219-232 - [p5]Krzysztof Daniec, Karol Jedrasiak, Roman Koteras, Aleksander Nawrat, Tadeusz Topór-Kaminski:
The Dedicated Wireless Communication Device for Group of Unmanned Vehicles. Vision Based Systemsfor UAV Applications 2013: 247-255 - [p4]Aleksander Nawrat, Anna Piaskowy, Artur Skórkowski, Tadeusz Topór-Kaminski:
Comparative Analysis of Power Loses in Selected Measurement Devices Used in SMART GRID Systems. Vision Based Systemsfor UAV Applications 2013: 273-291 - [p3]Adam Czornik, Aleksander Nawrat, Michal Niezabitowski:
Estimation of Solution of Discrete Linear Time-Varying System. Vision Based Systemsfor UAV Applications 2013: 311-326 - [p2]Marek Kozlak, Antoni Kurzeja, Aleksander Nawrat:
Virtual Reality Technology for Military and Industry Training Programs. Vision Based Systemsfor UAV Applications 2013: 327-334 - [p1]Marek Kozlak, Antoni Kurzeja, Aleksander Nawrat:
Verifying Unmanned Land Vehicle Vision System Configuration Using Serious Gaming Solution. Vision Based Systemsfor UAV Applications 2013: 335-342 - [e1]Aleksander Nawrat, Zygmunt Kus:
Vision Based Systemsfor UAV Applications. Studies in Computational Intelligence 481, Springer 2013, ISBN 978-3-319-00368-9 [contents] - 2012
- [c7]Pawel Iwaneczko, Karol Jedrasiak, Krzysztof Daniec, Aleksander Nawrat:
A Prototype of Unmanned Aerial Vehicle for Image Acquisition. ICCVG 2012: 87-94 - [c6]Karol Jedrasiak, Aleksander Nawrat, Krzysztof Daniec, Roman Koteras, Michal Mikulski, Tomasz Grzejszczak:
A Prototype Device for Concealed Weapon Detection Using IR and CMOS Cameras Fast Image Fusion. ICCVG 2012: 423-432 - 2011
- [c5]Adam Czornik, Aleksander Nawrat:
On the Central Exponent of Discrete Time-varying Linear Systems. ICSEng 2011: 22-25 - 2010
- [j4]Adam Czornik, Aleksander Nawrat:
On new estimates for Lyapunov exponents of discrete time varying linear systems. Autom. 46(4): 775-778 (2010) - [j3]Adam Czornik, Piotr Mokry, Aleksander Nawrat:
On the Sigma Exponent of Discrete Linear Systems. IEEE Trans. Autom. Control. 55(6): 1511-1515 (2010)
2000 – 2009
- 2009
- [j2]Aleksander Nawrat, Kamil Kozak:
Development of a System for Simulation and Control of an Unmanned Aerial Vehicle. Adv. Robotics 23(1-2): 257-268 (2009) - 2008
- [c4]Karol Jedrasiak, Aleksander Nawrat:
Image Recognition Technique for Unmanned Aerial Vehicles. ICCVG 2008: 391-399 - 2007
- [c3]Adam Czornik, Aleksander Nawrat:
Generalized spectral radius and Lyapunov exponents of linear time varying systems. CCA 2007: 1303-1306 - 2006
- [c2]Adam Czornik, Aleksander Nawrat:
Bounds for the solution of discrete coupled lyapunov equation. ICINCO-SPSMC 2006: 11-15 - [c1]Adam Czornik, Aleksander Nawrat:
On the stability of the discrete time jump linear system. ICINCO-SPSMC 2006: 75-78 - 2002
- [j1]Adam Czornik, Andrzej Swierniak, Aleksander Nawrat:
On the Sensitivity of the Coupled Continuous-Time Riccati Equation. Eur. J. Control 8(6): 497-504 (2002)
Coauthor Index
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