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Pawel Forczmanski
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2020 – today
- 2023
- [j14]Andrzej Lysko, Witold Macków, Pawel Forczmanski, Pawel Terefenko, Andrzej Giza, Jakub Sledziowski, Grzegorz Stepien, Arkadiusz Tomczak:
CCMORPH - Coastal Cliffs Morphology Analysis Toolbox. SoftwareX 22: 101386 (2023) - 2022
- [j13]Jakub Sledziowski, Pawel Terefenko, Andrzej Giza, Pawel Forczmanski, Andrzej Lysko, Witold Macków, Grzegorz Stepien, Arkadiusz Tomczak, Apoloniusz Kurylczyk:
Application of Unmanned Aerial Vehicles and Image Processing Techniques in Monitoring Underwater Coastal Protection Measures. Remote. Sens. 14(3): 458 (2022) - 2021
- [c50]Pawel Forczmanski, Anton Smolinski:
Supporting Driver Physical State Estimation by Means of Thermal Image Processing. ICCS (5) 2021: 149-163 - [c49]Karol Dzialowski, Pawel Forczmanski:
Football Players Movement Analysis in Panning Videos. ICCS (5) 2021: 193-206
2010 – 2019
- 2019
- [j12]Adam Nowosielski, Pawel Forczmanski:
Touchless typing with head movements captured in thermal spectrum. Pattern Anal. Appl. 22(3): 841-855 (2019) - [c48]Pawel Forczmanski, Anton Smolinski, Adam Nowosielski, Krzysztof Malecki:
Segmentation of Scanned Documents Using Deep-Learning Approach. CORES 2019: 141-152 - [c47]Adam Nowosielski, Krzysztof Malecki, Pawel Forczmanski, Anton Smolinski:
Pedestrian Detection in Severe Lighting Conditions: Comparative Study of Human Performance vs Thermal-Imaging-Based Automatic System. CORES 2019: 174-183 - [c46]Krzysztof Malecki, Pawel Forczmanski, Adam Nowosielski, Anton Smolinski, Daniel Ozga:
A New Benchmark Collection for Driver Fatigue Research Based on Thermal, Depth Map and Visible Light Imagery. CORES 2019: 295-304 - [c45]Pawel Forczmanski, Anton Smolinski:
Eyes State Detection in Thermal Imaging. IP&C 2019: 22-29 - 2018
- [j11]Wojciech Maleika, Michal Koziarski, Pawel Forczmanski:
A Multiresolution Grid Structure Applied to Seafloor Shape Modeling. ISPRS Int. J. Geo Inf. 7(3): 119 (2018) - [c44]Pawel Forczmanski, Kacper Kutelski:
Driver Drowsiness Estimation by Means of Face Depth Map Analysis. ACS 2018: 396-407 - 2017
- [c43]Pawel Forczmanski:
Performance Evaluation of Selected Thermal Imaging-Based Human Face Detectors. CORES 2017: 170-181 - [c42]Krzysztof Malecki, Adam Nowosielski, Pawel Forczmanski:
Multispectral Data Acquisition in the Assessment of Driver's Fatigue. TST 2017: 320-332 - 2016
- [j10]Pawel Forczmanski, Andrzej Markiewicz:
Two-stage approach to extracting visual objects from paper documents. Mach. Vis. Appl. 27(8): 1243-1257 (2016) - [c41]Pawel Forczmanski:
Human Face Detection in Thermal Images Using an Ensemble of Cascading Classifiers. ACS 2016: 205-215 - [c40]Pawel Forczmanski, Adam Nowosielski:
Multi-view Data Aggregation for Behaviour Analysis in Video Surveillance Systems. ICCVG 2016: 462-473 - [c39]Georgy Kukharev, Yuri Matveev, Pawel Forczmanski:
An Approach to Improve Accuracy of Photo-to-Sketch Matching. ICIAR 2016: 385-393 - [c38]Wojciech Maleika, Pawel Forczmanski:
Lossless Compression Method for Digital Terrain Model of Seabed Shape. IP&C 2016: 154-162 - [c37]Pawel Forczmanski, Adam Nowosielski:
Deep Learning Approach to Detection of Preceding Vehicle in Advanced Driver Assistance. TST 2016: 293-304 - 2015
- [j9]Dariusz Frejlichowski, Katarzyna Gosciewska, Pawel Forczmanski, Radoslaw Hofman:
Application of foreground object patterns analysis for event detection in an innovative video surveillance system. Pattern Anal. Appl. 18(3): 473-484 (2015) - [c36]Pawel Forczmanski, Wojciech Maleika:
Predicting the Number of DCT Coefficients in the Process of Seabed Data Compression. CAIP (1) 2015: 77-87 - [c35]Andrzej Markiewicz, Pawel Forczmanski:
Detection and Classification of Interesting Parts in Scanned Documents by Means of AdaBoost Classification and Low-Level Features Verification. CAIP (2) 2015: 529-540 - [c34]Piotr Czapiewski, Pawel Forczmanski, Krzysztof Okarma, Dariusz Frejlichowski, Radoslaw Hofman:
Clothing Similarity Estimation Using Dominant Color Descriptor and SSIM Index. CORES 2015: 491-500 - [c33]Tomasz Maka, Pawel Forczmanski:
Environmental Sounds Recognition Based on Image Processing Methods. CORES 2015: 723-732 - [c32]Pawel Forczmanski, Tomasz Maka:
Investigating Combinations of Visual Audio Features and Distance Metrics in the Problem of Audio Classification. CORES 2015: 733-744 - [c31]Pawel Forczmanski, Wojciech Maleika:
Near-Lossless PCA-Based Compression of Seabed Surface with Prediction. ICIAR 2015: 119-128 - [c30]Pawel Forczmanski, Piotr Labedz:
Improving the Recognition of Occluded Faces by Means of Two-dimensional Orthogonal Projection into Local Subspaces. ICIAR 2015: 229-238 - [c29]Dariusz Frejlichowski, Katarzyna Gosciewska, Adam Nowosielski, Pawel Forczmanski, Radoslaw Hofman:
Detecting Parked Vehicles in Static Images Using Simple Spectral Features in the 'SM4Public' System. ICIAR 2015: 489-498 - [c28]Dariusz Frejlichowski, Katarzyna Gosciewska, Adam Nowosielski, Pawel Forczmanski, Radoslaw Hofman:
Application of Cascades of Classifiers in the Vehicle Detection Scenario for the 'SM4Public' System. IDEAL 2015: 207-215 - [c27]Piotr Jasinski, Pawel Forczmanski:
Combined Imaging System for Taking Facial Portraits in Visible and Thermal Spectra. IP&C 2015: 63-71 - [c26]Dariusz Frejlichowski, Katarzyna Gosciewska, Pawel Forczmanski, Adam Nowosielski, Radoslaw Hofman:
Applying Image Features and AdaBoost Classification for Vehicle Detection in the 'SM4Public' System. IP&C 2015: 81-88 - [c25]Adam Nowosielski, Dariusz Frejlichowski, Pawel Forczmanski, Katarzyna Gosciewska, Radoslaw Hofman:
Automatic Analysis of Vehicle Trajectory Applied to Visual Surveillance. IP&C 2015: 89-96 - 2014
- [j8]Dariusz Frejlichowski, Katarzyna Gosciewska, Pawel Forczmanski, Radoslaw Hofman:
"SmartMonitor" - An Intelligent Security System for the Protection of Individuals and Small Properties with the Possibility of Home Automation. Sensors 14(6): 9922-9948 (2014) - [c24]Pawel Forczmanski, Adam Nowosielski, Pawel Marczeski:
Video Stream Analysis for Fish Detection and Classification. ACS 2014: 157-169 - [c23]Pawel Forczmanski, Piotr Czapiewski, Dariusz Frejlichowski, Krzysztof Okarma, Radoslaw Hofman:
Comparing Clothing Styles by Means of Computer Vision Methods. ICCVG 2014: 203-211 - [c22]Pawel Forczmanski, Radoslaw Mantiuk:
Adaptive and Quality-Aware Storage of JPEG Files in the Web Environment. ICCVG 2014: 212-219 - [c21]Dariusz Frejlichowski, Katarzyna Gosciewska, Pawel Forczmanski, Radoslaw Hofman:
Human Detection for a Video Surveillance Applied in the 'SmartMonitor' System. ICCVG 2014: 220-227 - [c20]Krzysztof Okarma, Dariusz Frejlichowski, Piotr Czapiewski, Pawel Forczmanski, Radoslaw Hofman:
Similarity Estimation of Textile Materials Based on Image Quality Assessment Methods. ICCVG 2014: 478-485 - [c19]Piotr Czapiewski, Pawel Forczmanski, Dariusz Frejlichowski, Radoslaw Hofman:
Clustering-Based Retrieval of Similar Outfits Based on Clothes Visual Characteristics. IP&C 2014: 29-36 - [c18]Pawel Forczmanski:
Improving Shape Retrieval and Classification Rates through Low-Dimensional Features Fusion. IP&C 2014: 37-44 - 2013
- [c17]Pawel Forczmanski, Piotr Labedz:
Recognition of Occluded Faces Based on Multi-subspace Classification. CISIM 2013: 148-157 - [c16]Dariusz Frejlichowski, Katarzyna Gosciewska, Pawel Forczmanski, Adam Nowosielski, Radoslaw Hofman:
The Removal of False Detections from Foreground Regions Extracted Using Adaptive Background Modelling for a Visual Surveillance System. CISIM 2013: 253-264 - [c15]Dariusz Frejlichowski, Katarzyna Gosciewska, Pawel Forczmanski, Adam Nowosielski, Radoslaw Hofman:
Extraction of the Foreground Regions by Means of the Adaptive Background Modelling Based on Various Colour Components for a Visual Surveillance System. CORES 2013: 351-360 - [c14]Pawel Forczmanski, Andrzej Markiewicz:
Low-Level Image Features for Stamps Detection and Classification. CORES 2013: 383-392 - [c13]Pawel Forczmanski, Piotr Dziurzanski:
System-Level Hardware Implementation of Simplified Low-Level Color Image Descriptor. CORES 2013: 461-468 - [c12]Pawel Forczmanski, Georgy Kukharev, Nadezhda Shchegoleva:
Simple and Robust Facial Portraits Recognition under Variable Lighting Conditions Based on Two-Dimensional Orthogonal Transformations. ICIAP (1) 2013: 602-611 - [c11]Pawel Forczmanski:
2DKLT-Based Color Image Watermarking. IP&C 2013: 107-114 - [c10]Pawel Forczmanski, Krzysztof Malecki:
Selected Aspects of Traffic Signs Recognition: Visual versus RFID Approach. TST 2013: 268-274 - 2012
- [c9]Pawel Forczmanski:
Comparison of Tensor Unfolding Variants for 2DPCA-Based Color Facial Portraits Recognition. ICCVG 2012: 345-353 - [c8]Pawel Forczmanski, Magdalena Furman:
Comparative Analysis of Benchmark Datasets for Face Recognition Algorithms Verification. ICCVG 2012: 354-362 - [c7]Dariusz Frejlichowski, Pawel Forczmanski, Adam Nowosielski, Katarzyna Gosciewska, Radoslaw Hofman:
SmartMonitor: An Approach to Simple, Intelligent and Affordable Visual Surveillance System. ICCVG 2012: 726-734 - [c6]Pawel Forczmanski:
On the Dimensionality of PCA Method and Color Space in Face Recognition. IP&C 2012: 55-63 - [c5]Pawel Forczmanski, Dariusz Frejlichowski:
Classification of Elementary Stamp Shapes by Means of Reduced Point Distance Histogram Representation. MLDM 2012: 603-616 - 2011
- [j7]Georgy Kukharev, Andrzej Tujaka, Pawel Forczmanski:
Face recognition using two-dimensional CCA and PLS. Int. J. Biom. 3(4): 300-321 (2011) - [c4]Pawel Forczmanski, Dariusz Frejlichowski:
Principal Component Analysis of Point Distance Histogram for Recognition of Stamp Silhouettes. IP&C 2011: 219-226 - [p4]Pawel Forczmanski, Dariusz Frejlichowski:
Efficient Stamps Classification by Means of Point Distance Histogram and Discrete Cosine Transform. Computer Recognition Systems 4 2011: 327-336 - 2010
- [j6]Pawel Forczmanski, Dariusz Frejlichowski:
Current challenges in content based image retrieval by means of low-level feature combining. Ann. UMCS Informatica 10(1): 41-49 (2010) - [j5]Pawel Forczmanski:
Stamp detection in scanned documents. Ann. UMCS Informatica 10(1): 61-68 (2010) - [c3]Dariusz Frejlichowski, Pawel Forczmanski:
General Shape Analysis Applied to Stamps Retrieval from Scanned Documents. AIMSA 2010: 251-260 - [c2]Pawel Forczmanski, Marcin Seweryn:
Surveillance Video Stream Analysis Using Adaptive Background Model and Object Recognition. ICCVG (1) 2010: 114-121 - [c1]Pawel Forczmanski, Dariusz Frejlichowski:
Robust Stamps Detection and Classification by Means of General Shape Analysis. ICCVG (1) 2010: 360-367
2000 – 2009
- 2009
- [j4]Pawel Forczmanski, Krzysztof Okarma:
Application of the central weighted structural similarity index for the estimation of the face recognition accuracy. Ann. UMCS Informatica 9(1): 153-163 (2009) - 2008
- [j3]Pawel Forczmanski:
Image processing algorithms employing two-dimensional Karhunen-Loeve Transform. Ann. UMCS Informatica 8(1): 55-65 (2008) - [j2]Krzysztof Okarma, Pawel Forczmanski:
2DLDA-based texture recognition in the aspect of objective image quality assessment. Ann. UMCS Informatica 8(1): 99-110 (2008) - [p3]Pawel Forczmanski, Dariusz Frejlichowski:
Strategies of Shape and Color Fusions for Content Based Image Retrieval. Computer Recognition Systems 2 2008: 3-10 - 2007
- [j1]Pawel Forczmanski, Georgy Kukharev:
Comparative analysis of simple facial features extractors. J. Real Time Image Process. 1(4): 239-255 (2007) - 2005
- [p2]Mariusz Borawski, Pawel Forczmanski:
Gram-Schmidt Orthonormalization-Based Color Model for Object Detection. Information Processing and Security Systems 2005: 87-94 - [p1]Mariusz Borawski, Pawel Forczmanski:
Sonar Image Simulation by Means of Ray Tracing and Image Processing. Enhanced Methods in Computer Security, Biometric and Artificial Intelligence Systems 2005: 209-214
Coauthor Index
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last updated on 2024-10-07 21:13 CEST by the dblp team
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