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2020 – today
- 2024
[j19]Mateusz Majcher, Bogdan Kwolek:
Multi-Modal Pose Representations for 6-DOF Object Tracking. J. Intell. Robotic Syst. 110(4): 149 (2024)- 2023
- [j18]Mateusz Majcher
, Bogdan Kwolek:
TOPSIS Aided Object Pose Tracking on RGB Images. IEEE Access 11: 139498-139508 (2023) - [c99]Bogdan Kwolek, Shinji Sako:
Dynamic Hand Gesture Recognition for Human-Robot Collaborative Assembly. ICAISC (1) 2023: 112-121 - [c98]Bogdan Kwolek:
Continuous Hand Gesture Recognition for Human-Robot Collaborative Assembly. ICCV (Workshops) 2023: 1992-1999 - 2022
- [c97]Mateusz Majcher, Bogdan Kwolek:
Shape Enhanced Keypoints Learning with Geometric Prior for 6D Object Pose Tracking. CVPR Workshops 2022: 2985-2991 - [c96]Anna Urban, Bogdan Kwolek:
Transformer-based Convolution-free Visual Place Recognition. ICARCV 2022: 161-166 - [c95]Jacek Trelinski, Bogdan Kwolek:
Enhancing Decision Combination in Classifier Committee via Positional Voting. ICCS (1) 2022: 598-609 - [c94]Mateusz Majcher, Bogdan Kwolek:
Multiple-criteria-Based Object Pose Tracking in RGB Videos. ICCCI 2022: 477-490 - [c93]Mateusz Majcher, Bogdan Kwolek:
Pose Guided Feature Learning for 3D Object Tracking on RGB Videos. VISIGRAPP (5: VISAPP) 2022: 574-581 - 2021
- [j17]Bogdan Kwolek, Wojciech Baczynski, Shinji Sako:
Recognition of JSL fingerspelling using Deep Convolutional Neural Networks. Neurocomputing 456: 586-598 (2021) - [j16]Jacek Trelinski, Bogdan Kwolek:
CNN-based and DTW features for human activity recognition on depth maps. Neural Comput. Appl. 33(21): 14551-14563 (2021) - [c92]Piotr Wozniak, Bogdan Kwolek:
Enhancing Visual Place Inference via Image Ranking Using Fuzzy Similarity and Agreeability. HAIS 2021: 403-414 - [c91]Jacek Trelinski, Bogdan Kwolek:
Deep Embedding Features for Action Recognition on Raw Depth Maps. ICCS (3) 2021: 95-108 - [c90]Piotr Wozniak, Bogdan Kwolek:
Place Inference via Graph-Based Decisions on Deep Embeddings and Blur Detections. ICCS (5) 2021: 178-192 - [c89]Jacek Trelinski, Bogdan Kwolek:
Decision Combination in Classifier Committee Built on Deep Embedding Features. ICCCI 2021: 480-493 - [c88]Mateusz Majcher, Bogdan Kwolek:
Deep Quaternion Pose Proposals for 6D Object Pose Tracking. ICCVW 2021: 243-251 - [c87]Piotr Wozniak, Bogdan Kwolek:
Deep Embeddings-based Place Recognition Robust to Motion Blur. ICCVW 2021: 1771-1779 - [c86]Mateusz Majcher, Bogdan Kwolek:
Quaternion-driven CNN for Object Pose Tracking. VCIP 2021: 1-4 - [c85]Jacek Trelinski, Bogdan Kwolek:
Human Action Recognition on Raw Depth Maps. VCIP 2021: 1-4 - [c84]Jacek Trelinski, Bogdan Kwolek:
Embedded Features for 1D CNN-based Action Recognition on Depth Maps. VISIGRAPP (4: VISAPP) 2021: 536-543 - [c83]Mateusz Majcher, Bogdan Kwolek:
Fiducial Points-supported Object Pose Tracking on RGB Images via Particle Filtering with Heuristic Optimization. VISIGRAPP (5: VISAPP) 2021: 919-926 - [i1]Michal Koziarski, Boguslaw Cyganek, Boguslaw Olborski, Zbigniew Antosz, Marcin Zydak, Bogdan Kwolek, Pawel Wasowicz, Andrzej Bukala, Jakub Swadzba, Piotr Sitkowski:
DiagSet: a dataset for prostate cancer histopathological image classification. CoRR abs/2105.04014 (2021) - 2020
- [j15]Bogdan Kwolek, Boguslaw Rymut:
Reconstruction of 3D human motion in real-time using particle swarm optimization with GPU-accelerated fitness function. J. Real Time Image Process. 17(4): 821-838 (2020) - [c82]Mateusz Majcher, Bogdan Kwolek:
3D Model-Based 6D Object Pose Tracking on RGB Images. ACIIDS (1) 2020: 271-282 - [c81]Jacek Trelinski, Bogdan Kwolek:
Ensemble of Multi-channel CNNs for Multi-class Time-Series Classification. Depth-Based Human Activity Recognition. ACIIDS (1) 2020: 455-466 - [c80]Vladyslav Lopatin, Bogdan Kwolek:
6D Pose Estimation of Texture-Less Objects on RGB Images Using CNNs. ICAISC (1) 2020: 180-192 - [c79]Andrzej Bukala, Boguslaw Cyganek, Michal Koziarski, Bogdan Kwolek, Boguslaw Olborski, Zbigniew Antosz, Jakub Swadzba, Piotr Sitkowski:
Classification of Histopathological Images using Scale-Invariant Feature Transform. VISIGRAPP (5: VISAPP) 2020: 506-512 - [c78]Mateusz Majcher, Bogdan Kwolek:
3D Model-based 6D Object Pose Tracking on RGB Images using Particle Filtering and Heuristic Optimization. VISIGRAPP (5: VISAPP) 2020: 690-697
2010 – 2019
- 2019
- [j14]Filip Malawski, Bogdan Kwolek:
Improving multimodal action representation with joint motion history context. J. Vis. Commun. Image Represent. 61: 198-208 (2019) - [j13]Bogdan Kwolek, Agnieszka Michalczuk, Tomasz Krzeszowski, Adam Switonski, Henryk Josinski, Konrad Wojciechowski:
Calibrated and synchronized multi-view video and motion capture dataset for evaluation of gait recognition. Multim. Tools Appl. 78(22): 32437-32465 (2019) - [c77]Kamil Kwolek, Adrian Brychcy, Bogdan Kwolek, Wojciech Marczynski:
Measuring Lower Limb Alignment and Joint Orientation Using Deep Learning Based Segmentation of Bones. HAIS 2019: 514-525 - [c76]Nam Tu Nguen, Shinji Sako, Bogdan Kwolek:
Deep CNN-Based Recognition of JSL Finger Spelling. HAIS 2019: 602-613 - [c75]Jacek Trelinski, Bogdan Kwolek:
Ensemble of Classifiers Using CNN and Hand-Crafted Features for Depth-Based Action Recognition. ICAISC (2) 2019: 91-103 - [c74]Bogdan Kwolek, Michal Koziarski, Andrzej Bukala, Zbigniew Antosz, Boguslaw Olborski, Pawel Wasowicz, Jakub Swadzba, Boguslaw Cyganek:
Breast Cancer Classification on Histopathological Images Affected by Data Imbalance Using Active Learning and Deep Convolutional Neural Network. ICANN (Workshop) 2019: 299-312 - [c73]Konrad Kwolek, Henryk Liszka, Bogdan Kwolek, Artur Gadek:
Measuring the Angle of Hallux Valgus Using Segmentation of Bones on X-Ray Images. ICANN (Workshop) 2019: 313-325 - [c72]Jacek Trelinski, Bogdan Kwolek:
Multi-channels CNN temporal features for depth-based action recognition. ICMV 2019: 114330U - 2018
- [j12]Adam Switonski, Tomasz Krzeszowski, Henryk Josinski, Bogdan Kwolek, Konrad Wojciechowski:
Gait recognition on the basis of markerless motion tracking and DTW transform. IET Biom. 7(5): 415-422 (2018) - [j11]Michal Kepski, Bogdan Kwolek:
Event-driven system for fall detection using body-worn accelerometer and depth sensor. IET Comput. Vis. 12(1): 48-58 (2018) - [j10]Filip Malawski, Bogdan Kwolek:
Recognition of action dynamics in fencing using multimodal cues. Image Vis. Comput. 75: 1-10 (2018) - [c71]Pavel Gritsenko, Igor Gritsenko, Askar Seidakhmet, Bogdan Kwolek:
Plane-Based Humanoid Robot Navigation and Object Model Construction for Grasping. ECCV Workshops (1) 2018: 649-664 - [c70]Pavel Gritsenko, Igor Gritsenko, Askar Seidakhmet, Bogdan Kwolek:
Plane Object-Based High-Level Map Representation for SLAM. ICCVG 2018: 91-102 - [c69]Piotr Wozniak, Hadha Afrisal, Rigel Galindo Esparza, Bogdan Kwolek:
Scene Recognition for Indoor Localization of Mobile Robots Using Deep CNN. ICCVG 2018: 137-147 - [c68]Jacek Trelinski, Bogdan Kwolek:
Convolutional Neural Network-Based Action Recognition on Depth Maps. ICCVG 2018: 209-221 - [c67]Bogdan Kwolek:
GAN-based data augmentation for visual finger spelling recognition. ICMV 2018: 110411U - [c66]Michal Koziarski, Bogdan Kwolek, Boguslaw Cyganek:
Convolutional Neural Network-Based Classification of Histopathological Images Affected by Data Imbalance. FFER/DLPR@ICPR 2018: 1-11 - 2017
- [c65]Bogdan Kwolek, Shinji Sako:
Learning Siamese Features for Finger Spelling Recognition. ACIVS 2017: 225-236 - [c64]Dennis Núñez Fernández, Bogdan Kwolek:
Hand Posture Recognition Using Convolutional Neural Network. CIARP 2017: 441-449 - [c63]Bogdan Kwolek:
Person Re-Identification Using Multi-region Triplet Convolutional Network. ICDSC 2017: 82-87 - [c62]Bogdan Kwolek, Boguslaw Rymut:
Marker-Less 3D Human Motion Capture in Real-Time Using Particle Swarm Optimization with GPU-Accelerated Fitness Function. ICIG (3) 2017: 423-435 - [c61]Hana Hosoe, Shinji Sako, Bogdan Kwolek:
Recognition of JSL finger spelling using convolutional neural networks. MVA 2017: 85-88 - [c60]Filip Malawski, Bogdan Kwolek:
Real-Time action detection and analysis in fencing footwork. TSP 2017: 520-523 - 2016
- [j9]Bogdan Kwolek, Michal Kepski:
Fuzzy inference-based fall detection using kinect and body-worn accelerometer. Appl. Soft Comput. 40: 305-318 (2016) - [c59]Michal Kepski, Bogdan Kwolek:
Fall Detection Using Body-Worn Accelerometer and Depth Maps Acquired by Active Camera. HAIS 2016: 414-426 - [c58]Filip Malawski, Bogdan Kwolek:
Classification of basic footwork in fencing using accelerometer. SPA 2016: 51-55 - 2015
- [j8]Boguslaw Rymut, Bogdan Kwolek:
Real-time multiview human pose tracking using graphics processing unit-accelerated particle swarm optimization. Concurr. Comput. Pract. Exp. 27(6): 1551-1563 (2015) - [j7]Bogdan Kwolek, Michal Kepski:
Improving fall detection by the use of depth sensor and accelerometer. Neurocomputing 168: 637-645 (2015) - [c57]Michal Kepski, Bogdan Kwolek:
Embedded system for fall detection using body-worn accelerometer and depth sensor. IDAACS 2015: 755-759 - 2014
- [j6]Bogdan Kwolek, Michal Kepski:
Human fall detection on embedded platform using depth maps and wireless accelerometer. Comput. Methods Programs Biomed. 117(3): 489-501 (2014) - [c56]Bogdan Kwolek, Tomasz Krzeszowski, Agnieszka Michalczuk, Henryk Josinski:
3D Gait Recognition Using Spatio-Temporal Motion Descriptors. ACIIDS (2) 2014: 595-604 - [c55]Filip Malawski, Bogdan Kwolek, Shinji Sako:
Using Kinect for Facial Expression Recognition under Varying Poses and Illumination. AMT 2014: 395-406 - [c54]Michal Kepski, Bogdan Kwolek:
Detecting human falls with 3-axis accelerometer and depth sensor. EMBC 2014: 770-773 - [c53]Michal Kepski, Bogdan Kwolek:
Person Detection and Head Tracking to Detect Falls in Depth Maps. ICCVG 2014: 324-331 - [c52]Tomasz Krzeszowski, Adam Switonski, Bogdan Kwolek, Henryk Josinski, Konrad W. Wojciechowski:
DTW-Based Gait Recognition from Recovered 3-D Joint Angles and Inter-ankle Distance. ICCVG 2014: 356-363 - [c51]Boguslaw Rymut, Bogdan Kwolek:
Mixing Graphics and Compute for Real-Time Multiview Human Body Tracking. ICCVG 2014: 534-541 - [c50]Michal Kepski, Bogdan Kwolek:
Fall Detection using Ceiling-mounted 3D Depth Camera. VISAPP (2) 2014: 640-647 - 2013
- [j5]Moritz Kaiser, Xiao Xu, Bogdan Kwolek, Shamik Sural, Gerhard Rigoll:
Towards using covariance matrix pyramids as salient point descriptors in 3D point clouds. Neurocomputing 120: 101-112 (2013) - [c49]Boguslaw Rymut, Bogdan Kwolek, Tomasz Krzeszowski:
GPU-Accelerated Human Motion Tracking Using Particle Filter Combined with PSO. ACIVS 2013: 426-437 - [c48]Tomasz Krzeszowski, Agnieszka Michalczuk, Bogdan Kwolek, Adam Switonski, Henryk Josinski:
Gait recognition based on marker-less 3D motion capture. AVSS 2013: 232-237 - [c47]Michal Kepski, Bogdan Kwolek:
Unobtrusive Fall Detection at Home Using Kinect Sensor. CAIP (1) 2013: 457-464 - [c46]Michal Kepski, Bogdan Kwolek:
Human Fall Detection Using Kinect Sensor. CORES 2013: 743-752 - [c45]Bogdan Kwolek, Michal Kepski:
Fall Detection Using Kinect Sensor and Fall Energy Image. HAIS 2013: 294-303 - [c44]Boguslaw Rymut, Bogdan Kwolek:
Real-Time Multiview Human Body Tracking Using GPU-Accelerated PSO. PPAM (1) 2013: 458-468 - [p2]Bogdan Kwolek:
Multi-object Tracking Using Particle Swarm Optimization on Target Interactions. Advances in Heuristic Signal Processing and Applications 2013: 63-78 - 2012
- [c43]Patrick Fleischmann, Ivar Austvoll, Bogdan Kwolek:
Particle Swarm Optimization with Soft Search Space Partitioning for Video-Based Markerless Pose Tracking. ACIVS 2012: 479-490 - [c42]Bogdan Kwolek, Tomasz Krzeszowski, André Gagalowicz, Konrad W. Wojciechowski, Henryk Josinski:
Real-Time Multi-view Human Motion Tracking Using Particle Swarm Optimization with Resampling. AMDO 2012: 92-101 - [c41]Tomasz Krzeszowski, Bogdan Kwolek, Boguslaw Rymut, Konrad W. Wojciechowski, Henryk Josinski:
Real-Time Tracking of Full-Body Motion Using Parallel Particle Swarm Optimization with a Pool of Best Particles. ICAISC (SIDE-EC) 2012: 102-109 - [c40]Michal Kepski, Bogdan Kwolek, Ivar Austvoll:
Fuzzy Inference-Based Reliable Fall Detection Using Kinect and Accelerometer. ICAISC (1) 2012: 266-273 - [c39]Boguslaw Rymut, Tomasz Krzeszowski, Bogdan Kwolek:
Full Body Motion Tracking in Monocular Images Using Particle Swarm Optimization. ICAISC (1) 2012: 600-607 - [c38]Michal Kepski, Bogdan Kwolek:
Fall Detection on Embedded Platform Using Kinect and Wireless Accelerometer. ICCHP (2) 2012: 407-414 - [c37]Michal Kepski, Bogdan Kwolek:
Human Fall Detection by Mean Shift Combined with Depth Connected Components. ICCVG 2012: 457-464 - [c36]Tomasz Krzeszowski, Bogdan Kwolek, Agnieszka Michalczuk, Adam Switonski, Henryk Josinski:
View Independent Human Gait Recognition Using Markerless 3D Human Motion Capture. ICCVG 2012: 491-500 - 2011
- [c35]Bogdan Kwolek, Tomasz Krzeszowski, Konrad W. Wojciechowski:
Swarm Intelligence Based Searching Schemes for Articulated 3D Body Motion Tracking. ACIVS 2011: 115-126 - [c34]Bogdan Kwolek:
Multiple views based human motion tracking in surveillance videos. AVSS 2011: 492-497 - [c33]Boguslaw Rymut, Bogdan Kwolek:
Face Tracking Using Adaptive Appearance Models and Convolutional Neural Network. HAIS (1) 2011: 271-279 - [c32]Boguslaw Rymut, Bogdan Kwolek:
Parallel Appearance-Adaptive Models for Real-Time Object Tracking Using Particle Swarm Optimization. ICCCI (2) 2011: 455-464 - [c31]Boguslaw Rymut, Bogdan Kwolek:
Face Tracking with Guaranteed Framerates on Mobile Phones. IP&C 2011: 165-172 - [c30]Tomasz Krzeszowski, Bogdan Kwolek:
An Approach for Model-Based 3D Human Pose Tracking, Animation and Evaluation. IP&C 2011: 173-181 - [c29]Bogdan Kwolek, Tomasz Krzeszowski, Konrad W. Wojciechowski:
Real-Time Multi-view Human Motion Tracking Using 3D Model and Latency Tolerant Parallel Particle Swarm Optimization. MIRAGE 2011: 169-180 - [p1]Tomasz Krzeszowski, Bogdan Kwolek, Konrad Wojciechowski:
Model-Based 3D Human Motion Capture Using Global-Local Particle Swarm Optimizations. Computer Recognition Systems 4 2011: 297-306 - 2010
- [c28]Bogdan Kwolek:
Multi Camera-Based Person Tracking Using Region Covariance and Homography Constraint. AVSS 2010: 294-299 - [c27]Tomasz Krzeszowski, Bogdan Kwolek, Konrad W. Wojciechowski:
Articulated Body Motion Tracking by Combined Particle Swarm Optimization and Particle Filtering. ICCVG (1) 2010: 147-154 - [c26]Tomasz Krzeszowski, Bogdan Kwolek, Konrad W. Wojciechowski:
GPU-Accelerated Tracking of the Motion of 3D Articulated Figure. ICCVG (1) 2010: 155-162 - [c25]Ivar Austvoll, Bogdan Kwolek:
Region Covariance Matrix-Based Object Tracking with Occlusions Handling. ICCVG (1) 2010: 201-208 - [c24]Boguslaw Rymut, Bogdan Kwolek:
GPU-Supported Object Tracking Using Adaptive Appearance Models and Particle Swarm Optimization. ICCVG (2) 2010: 227-234 - [c23]Moritz Kaiser, Bogdan Kwolek, Christoph Staub, Gerhard Rigoll:
Registration of 3D facial surfaces using covariance matrix pyramids. ICRA 2010: 1002-1007 - [c22]Boguslaw Rymut, Bogdan Kwolek:
GPU-Accelerated Object Tracking Using Particle Filtering and Appearance-Adaptive Models. IP&C 2010: 337-344
2000 – 2009
- 2009
- [j4]Bogdan Kwolek:
Object segmentation in video via graph cut built on superpixels. Fundam. Informaticae 90(4): 379-393 (2009) - [j3]Bogdan Kwolek:
Particle Swarm Optimization Based Object Tracking. Fundam. Informaticae 95(4): 449-463 (2009) - [c21]Bogdan Kwolek:
Object Tracking via Multi-region Covariance and Particle Swarm Optimization. AVSS 2009: 418-423 - 2008
- [c20]Bogdan Kwolek:
Object Tracking Using Grayscale Appearance Models and Swarm Based Particle Filter. HAIS 2008: 433-440 - [c19]Bogdan Kwolek:
Foreground Segmentation via Segments Tracking. ICCVG 2008: 270-281 - 2007
- [c18]Bogdan Kwolek:
Learning-Based Object Tracking Using Boosted Features and Appearance-Adaptive Models. ACIVS 2007: 144-155 - [c17]Bogdan Kwolek:
Detail-Preserving Regularization Based Removal of Impulse Noise from Highly Corrupted Images. ICANNGA (2) 2007: 599-605 - [c16]Bogdan Kwolek:
Visual Odometry Based on Gabor Filters and Sparse Bundle Adjustment. ICRA 2007: 3573-3578 - [c15]Bogdan Kwolek:
3D Model-Based Tracking of the Human Body in Monocular Gray-Level Images. MIRAGE 2007: 494-505 - 2006
- [c14]Bogdan Kwolek:
Object Tracking Using Discriminative Feature Selection. ACIVS 2006: 287-298 - [c13]Joachim Schmidt, Jannik Fritsch, Bogdan Kwolek:
Kernel Particle Filter for Real-Time 3D Body Tracking in Monocular Color Images. FGR 2006: 567-572 - [c12]Bogdan Kwolek:
Model Based Facial Pose Tracking Using a Particle Filter. GMAI 2006: 203-208 - [c11]Bogdan Kwolek:
Active Shape Model Based Segmentation and Tracking of Facial Regions in Color Images. ICIAR (1) 2006: 295-306 - 2005
- [j2]Bogdan Kwolek:
Action Recognition in Meeting Videos Using Head Trajectories and Fuzzy Color Histogram. Informatica (Slovenia) 29(3): 281-290 (2005) - [c10]Bogdan Kwolek:
CamShift-Based Tracking in Joint Color-Spatial Spaces. CAIP 2005: 693-700 - [c9]Bogdan Kwolek:
A Real-Time Head Tracker Supporting Human Computer Interaction. CORES 2005: 859-866 - [c8]Bogdan Kwolek:
Face Detection Using Convolutional Neural Networks and Gabor Filters. ICANN (1) 2005: 551-556 - [c7]Bogdan Kwolek:
Face tracking for H.264 encoded video sequences. ICIP (3) 2005: 449-452 - 2004
- [j1]Bogdan Kwolek:
Real-Time Head Tracker Using Color, Stereovision and Ellipse Fitting in a Particle Filter. Informatica 15(2): 219-230 (2004) - [c6]Bogdan Kwolek:
Stereovision-Based Head Tracking Using Color and Ellipse Fitting in a Particle Filter. ECCV (4) 2004: 192-204 - [c5]Bogdan Kwolek:
Finding Location Using a Particle Filter and Histogram Matching. ICAISC 2004: 786-791 - [c4]Bogdan Kwolek:
Face Tracking using Color, elliptical Shape Features and a Detection Cascade of Boosted Classifiers in Particle filter. ICCVG 2004: 287-292 - [c3]Bogdan Kwolek:
Person following and mobile camera localization using particle filters. RoMoCo 2004: 265-270 - 2003
- [c2]Bogdan Kwolek:
Face Tracking System Based on Color, Stereovision and Elliptical Shape Features. AVSS 2003: 21- - [c1]Bogdan Kwolek:
Visual System for Tracking and Interpreting Selected Human Actions. WSCG 2003
Coauthor Index
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