Publikationer av John Folkesson

Refereegranskade

Artiklar

[1]

Y. Xie, N. Bore och J. Folkesson, "Bathymetric Reconstruction From Sidescan Sonar With Deep Neural Networks," IEEE Journal of Oceanic Engineering, vol. 48, no. 2, s. 372-383, 2023.

[2]

Y. Xie, N. Bore och J. Folkesson, "Neural Network Normal Estimation and Bathymetry Reconstruction From Sidescan Sonar," IEEE Journal of Oceanic Engineering, vol. 48, no. 1, s. 218-232, 2023.

[3]

N. Bore och J. Folkesson, "Neural Shape-From-Shading for Survey-Scale Self-Consistent Bathymetry From Sidescan," IEEE Journal of Oceanic Engineering, vol. 48, no. 2, s. 416-430, 2023.

[4]

I. Torroba et al., "Online Stochastic Variational Gaussian Process Mapping for Large-Scale Bathymetric SLAM in Real Time," IEEE Robotics and Automation Letters, vol. 8, no. 6, s. 3150-3157, 2023.

[5]

I. Stenius et al., "A system for autonomous seaweed farm inspection with an underwater robot," Sensors, vol. 22, no. 13, 2022.

[6]

I. Torroba, C. Sprague och J. Folkesson, "Fully-Probabilistic Terrain Modelling and Localization With Stochastic Variational Gaussian Process Maps," IEEE Robotics and Automation Letters, vol. 7, no. 4, s. 8729-8736, 2022.

[7]

Y. Xie, N. Bore och J. Folkesson, "Sidescan Only Neural Bathymetry from Large-Scale Survey," Sensors, vol. 22, no. 14, s. 5092, 2022.

[8]

Y. Xie, N. Bore och J. Folkesson, "Inferring Depth Contours from Sidescan Sonar using Convolutional Neural Nets," IET radar, sonar & navigation, vol. 14, no. 2, s. 328-334, 2020.

[9]

N. Bore och J. Folkesson, "Modeling and Simulation of Sidescan Using Conditional Generative Adversarial Network," IEEE Journal of Oceanic Engineering, s. 1-11, 2020.

[10]

I. Torroba et al., "PointNetKL : Deep Inference for GICP Covariance Estimation in Bathymetric SLAM," IEEE Robotics and Automation Letters, vol. 5, no. 3, s. 4078-4085, 2020.

[11]

N. Bore et al., "Detection and Tracking of General Movable Objects in Large Three-Dimensional Maps," IEEE Transactions on robotics, vol. 35, no. 1, s. 231-247, 2019.

[12]

J. Tang et al., "GCNv2 : Efficient Correspondence Prediction for Real-Time SLAM," IEEE Robotics and Automation Letters, vol. 4, no. 4, s. 3505-3512, 2019.

[13]

D. Peng, J. Folkesson och C. Xu, "Robust Particle Filter Based on Huber Function for Underwater Terrain Aided Navigation," IET radar, sonar & navigation, 2019.

[14]

J. Tang, J. Folkesson och P. Jensfelt, "Sparse2Dense : From Direct Sparse Odometry to Dense 3-D Reconstruction," IEEE Robotics and Automation Letters, vol. 4, no. 2, s. 530-537, 2019.

[15]

J. Tang, J. Folkesson och P. Jensfelt, "Geometric Correspondence Network for Camera Motion Estimation," IEEE Robotics and Automation Letters, vol. 3, no. 2, s. 1010-1017, 2018.

[16]

T. Faeulhammer et al., "Autonomous Learning of Object Models on a Mobile Robot," IEEE Robotics and Automation Letters, vol. 2, no. 1, s. 26-33, 2017.

[17]

N. Bore et al., "Efficient retrieval of arbitrary objects from long-term robot observations," Robotics and Autonomous Systems, vol. 91, s. 139-150, 2017.

[18]

E. Ward et al., "Probabilistic Model for Interaction Aware Planning in Merge Scenarios," IEEE Transactions on Intelligent Vehicles, vol. 2, no. 2, s. 133-146, 2017.

[19]

N. Hawes et al., "The STRANDS Project Long-Term Autonomy in Everyday Environments," IEEE robotics & automation magazine, vol. 24, no. 3, s. 146-156, 2017.

[20]

M. F. Fallon et al., "Relocating Underwater Features Autonomously Using Sonar-Based SLAM," IEEE Journal of Oceanic Engineering, vol. 38, no. 3, s. 500-513, 2013.

[21]

J. Folkesson och H. Christensen, "SIFT Based Graphical SLAM on a Packbot," Springer Tracts in Advanced Robotics, vol. 42, s. 317-328, 2008.

[22]

J. Folkesson och H. Christensen, "Closing the Loop With Graphical SLAM," IEEE Transactions on robotics, vol. 23, no. 4, s. 731-741, 2007.

[23]

J. Folkesson och H. I. Christensen, "Graphical SLAM for Outdoor Applications," Journal of Field Robotics, vol. 24, no. 1-2, s. 51-70, 2007.

[24]

J. Folkesson, P. Jensfelt och H. I. Christensen, "The m-space feature representation for slam," IEEE Transactions on robotics, vol. 23, no. 5, s. 1024-1035, 2007.

Konferensbidrag

[25]

J. Tan et al., "Data-driven Loop Closure Detection in Bathymetric Point Clouds for Underwater SLAM," i Proceedings - ICRA 2023: IEEE International Conference on Robotics and Automation, 2023, s. 3131-3137.

[26]

W. Xu et al., "Evaluation of a Canonical Image Representation for Sidescan Sonar," i OCEANS 2023 - Limerick, OCEANS Limerick 2023, 2023.

[27]

Y. Yang et al., "RMP : A Random Mask Pretrain Framework for Motion Prediction," i 2023 IEEE 26th International Conference on Intelligent Transportation Systems, ITSC 2023, 2023, s. 3717-3723.

[28]

Y. Xie, N. Bore och J. Folkesson, "Towards Differentiable Rendering for Sidescan Sonar Imagery," i 2022 IEEE/OES AUTONOMOUS UNDERWATER VEHICLES SYMPOSIUM (AUV), 2022.

[29]

I. Athanasiadis, N. Bore och J. Folkesson, "Underwater Image Classification via Multiview-based Auxiliary Learning," i 2022 OCEANS HAMPTON ROADS, 2022.

[30]

I. Mitsioni et al., "Interpretability in Contact-Rich Manipulation via Kinodynamic Images," i 2021 IEEE International Conference on Robotics and Automation (ICRA), 2021, s. 10175-10181.

[31]

J. Mänttäri et al., "Interpreting Video Features : A Comparison of 3D Convolutional Networks and Convolutional LSTM Networks," i 15th Asian Conference on Computer Vision, ACCV 2020, 2021, s. 411-426.

[32]

S. Bhat et al., "A Cyber-Physical System for Hydrobatic AUVs : System Integration and Field Demonstration," i 2020 IEEE/OES Autonomous Underwater Vehicles Symposium, AUV 2020, 2020.

[33]

S. Bhat et al., "A Cyber-Physical System for Hydrobatic AUVs: System Integration and Field Demonstration," i IEEE OES Autonomous Underwater Vehicles Symposium, St. Johns, Newfoundland, Canada, 2020, 2020.

[34]

J. Mänttäri et al., "Interpreting Video Features : A Comparison of 3D Convolutional Networks and Convolutional LSTM Networks," i Asian Conference on Computer Vision, 2020.

[35]

J. Folkesson, H. Chang och N. Bore, "Lambert’s Cosine Law and Sidescan Sonar Modeling," i 2020 IEEE/OES Autonomous Underwater Vehicles Symposium, AUV 2020, 2020.

[36]

M. Larsson, N. Bore och J. Folkesson, "Latent Space Metric Learning For Sidescan Sonar Place Recognition," i 2020 IEEE OES Autonomous Underwater Vehicle Symposium, St John's, NL, Canada, 30 September - 2 October 2020, 2020.

[37]

J. Shi et al., "Automated Underwater Pipeline Damage Detection using Neural Nets," i ICRA 2019 Workshop on Underwater Robotics Perception, 2019.

[38]

J. Mänttäri och J. Folkesson, "Incorporating Uncertainty in Predicting Vehicle Maneuvers at Intersections With Complex Interactions," i 2019 IEEE Intelligent Vehicles Symposium (IV), 2019.

[39]

I. Torroba et al., "Loop Closure Detection Through Environmental Indicators In Underwater SLAM," i OCEANS 2019 - Marseille, 2019.

[40]

I. Torroba, N. Bore och J. Folkesson, "Towards Autonomous Industrial-Scale Bathymetric Surveying," i IEEE International Conference on Intelligent Robots and Systems, 2019, s. 6377-6382.

[41]

I. Torroba, N. Bore och J. Folkesson, "A Comparison of Submap Registration Methods for Multibeam Bathymetric Mapping," i AUV 2018 - 2018 IEEE/OES Autonomous Underwater Vehicle Workshop, Proceedings, 2018.

[42]

I. Torroba, N. Bore och J. Folkesson, "A Comparison of Submaps Registration Methods for Multibeam Bathymetric Mapping," i 2018 IEEE OES Autonomous Underwater Vehicle Symposium, 2018.

[43]

X. Chen et al., "Deep Reinforcement Learning to Acquire Navigation Skills for Wheel-Legged Robots in Complex Environments," i 2018 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS), 2018.

[44]

J. Mänttäri, J. Folkesson och E. Ward, "Learning to Predict Lane Changes in Highway Scenarios Using Dynamic Filters on a Generic Traffic Representation," i IEEE Intelligent Vehicles Symposium, Proceedings, 2018, s. 1385-1392.

[45]

L. Rixon Fuchs, A. Gällström och J. Folkesson, "Object Recognition in Forward Looking Sonar Images using Transfer Learning," i Proceedings IEEE/OES Autonomous Underwater Vehicle Workshop, AUV 2018, 2018.

[46]

N. Bore, I. Torroba och J. Folkesson, "Sparse Gaussian Process SLAM, Storage and Filtering for AUV Multibeam Bathymetry," i AUV 2018 - 2018 IEEE/OES Autonomous Underwater Vehicle Workshop, Proceedings, 2018.

[47]

E. Ward och J. Folkesson, "Towards Risk Minimizing Trajectory Planning in On-Road Scenarios," i IEEE Intelligent Vehicles Symposium, Proceedings, 2018, s. 490-497.

[48]

R. Ambrus et al., "Autonomous meshing, texturing and recognition of object models with a mobile robot," i 2017 IEEE/RSJ INTERNATIONAL CONFERENCE ON INTELLIGENT ROBOTS AND SYSTEMS (IROS), 2017, s. 5071-5078.

[49]

R. Ambrus et al., "Autonomous meshing, texturing and recognition of objectmodels with a mobile robot," i Intelligent Robots and Systems, IEEE/RSJ International Conference on, 2017.

[50]

F. Schilling et al., "Geometric and visual terrain classification for autonomous mobile navigation," i 2017 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS), 2017.

[51]

H. Karaoguz et al., "Human-Centric Partitioning of the Environment," i 26th IEEE International Symposium on Robot and Human Interactive Communication (RO-MAN), 2017, s. 844-850.

[52]

J. Folkesson, "The antiparticle filter—an adaptive nonlinear estimator," i 15th International Symposium of Robotics Research, 2011, 2017, s. 219-234.

[53]

Z. Wang, P. Jensfelt och J. Folkesson, "Building a human behavior map from local observations," i Robot and Human Interactive Communication (RO-MAN), 2016 25th IEEE International Symposium on, 2016, s. 64-70.

[54]

N. Evestedt et al., "Interaction aware trajectory planning for merge scenarios in congested traffic situations," i 2016 IEEE 19th International Conference on Intelligent Transportation Systems, 2016, s. 465-472.

[55]

R. Ambrus, J. Folkesson och P. Jensfelt, "Unsupervised object segmentation through change detection in a long term autonomy scenario," i IEEE-RAS International Conference on Humanoid Robots, 2016, s. 1181-1187.

[56]

E. Ward och J. Folkesson, "Vehicle localization with low cost radar sensors," i Intelligent Vehicles Symposium (IV), 2016 IEEE, 2016, s. 864-870.

[57]

A. Thippur et al., "A comparison of qualitative and metric spatial relation models for scene understanding," i Proceedings of the National Conference on Artificial Intelligence, 2015, s. 1632-1640.

[58]

Z. Wang, P. Jensfelt och J. Folkesson, "Modeling Spatial-Temporal Dynamics of Human Movements for Predicting Future Trajectories," i Workshop at the Twenty-Ninth AAAI Conference on Artificial Intelligence, "Knowledge, Skill, and Behavior Transfer in Autonomous Robots", AAAI Conference on Artificial Intelligence, Austin, USA, January 25, 2015, 2015.

[59]

E. Ward och J. Folkesson, "Multi-classification of Driver Intentions in Yielding Scenarios," i Intelligent Transportation Systems (ITSC), 2015 IEEE 18th International Conference on, 2015, s. 678-685.

[60]

Z. Wang, P. Jensfelt och J. Folkesson, "Multi-scale conditional transition map : Modeling spatial-temporal dynamics of human movements with local and long-term correlations," i Intelligent Robots and Systems (IROS), 2015 IEEE/RSJ International Conference on, 2015, s. 6244-6251.

[61]

J. Ekekrantz et al., "Probabilistic Primitive Refinement algorithm for colored point cloud data," i 2015 European Conference on Mobile Robots (ECMR), 2015.

[62]

N. Bore, P. Jensfelt och J. Folkesson, "Retrieval of Arbitrary 3D Objects From Robot Observations," i Retrieval of Arbitrary 3D Objects From Robot Observations, 2015, s. 1-8.

[63]

R. Ambrus et al., "Unsupervised learning of spatial-temporal models of objects in a long-term autonomy scenario," i 2015 IEEE/RSJ INTERNATIONAL CONFERENCE ON INTELLIGENT ROBOTS AND SYSTEMS (IROS), 2015, s. 5678-5685.

[64]

S. Xiao, Z. Wang och J. Folkesson, "Unsupervised robot learning to predict person motion," i Proceedings - IEEE International Conference on Robotics and Automation, 2015, s. 691-696.

[65]

L. Kunze et al., "Combining Top-down Spatial Reasoning and Bottom-up Object Class Recognition for Scene Understanding," i Proc. of 2014 IEEE/RSJ International Conference on IntelligentRobots and Systems 2014, 2014, s. 2910-2915.

[66]

A. Thippur et al., "KTH-3D-TOTAL : A 3D dataset for discovering spatial structures for long-term autonomous learning," i 2014 13th International Conference on Control Automation Robotics and Vision, ICARCV 2014, 2014, s. 1528-1535.

[67]

R. Ambrus et al., "Meta-rooms : Building and Maintaining Long Term Spatial Models in a Dynamic World," i 2014 IEEE/RSJ International Conference on Intelligent Robots and Systems, (IROS 2014), 2014, s. 1854-1861.

[68]

Z. Wang et al., "Modeling motion patterns of dynamic objectsby IOHMM," i Intelligent Robots and Systems (IROS 2014), 2014 IEEE/RSJ International Conference on, 2014, s. 1832-1838.

[69]

M. Alberti, P. Jensfelt och J. Folkesson, "Relational approaches for joint object classification andscene similarity measurement in indoor environments," i Proc. of 2014 AAAI Spring Symposium QualitativeRepresentations for Robots 2014, 2014.

[70]

J. Ekekrantz et al., "Adaptive Iterative Closest Keypoint," i 2013 European Conference on Mobile Robots, ECMR 2013 - Conference Proceedings, 2013, s. 80-87.

[71]

A. Aydemir, P. Jensfelt och J. Folkesson, "What can we learn from 38,000 rooms? : Reasoning about unexplored space in indoor environments," i Intelligent Robots and Systems (IROS), 2012 IEEE/RSJ International Conference on, 2012, s. 4675-4682.

[72]

J. Folkesson och J. Leonard, "Autonomy through SLAM for an Underwater Robot," i Robotics Research The 14th International Symposium ISRR, 2011, s. 55-70.

[73]

J. Folkesson, "Robustness of the Quadratic Antiparticle Filter forRobot Localization," i European Conference on Mobile Robots, 2011, s. 297-302.

[74]

A. Aydemir et al., "Search in the real world : Active visual object search based on spatial relations," i IEEE International Conference on Robotics and Automation (ICRA), 2011, 2011, s. 2818-2824.

[75]

J. Folkesson, "The Antiparticle Filter : an Adaptive Nonlinear Estimator," i International Symposium of Robotics Research, 2011.

[76]

J. Folkesson et al., "A Feature Based Navigation System for an Autonomous Underwater Robot," i Field And Service Robotics : Results Of The 6th International Conference, 2008, s. 105-114.

[77]

J. Folkesson et al., "Feature tracking for underwater navigation using sonar," i Proceedings of the 2007 IEEE/RSJ International Conference on Intelligent Robots and Systems San Diego, CA, USA, Oct 29 - Nov 2, 2007 : Vols 1-9, 2007, s. 3678-3684.

[78]

P. Jensfelt et al., "A framework for vision based bearing only 3D SLAM," i Proceedings of the 2006 IEEE International Conference on Robotics and Automation, Orlando, Florida - May 2006 : Vols 1-10, 2006, s. 1944-1950.

[79]

P. Jensfelt et al., "Exploiting distinguishable image features in robotic mapping and localization," i European Robotics Symposium 2006, 2006, s. 143-157.

[80]

J. Folkesson, P. Jensfelt och H. Christensen, "Graphical SLAM using vision and the measurement subspace," i 2005 IEEE/RSJ INTERNATIONAL CONFERENCE ON INTELLIGENT ROBOTS AND SYSTEMS, VOLS 1-4, 2005, s. 325-330.

[81]

J. Folkesson, P. Jensfelt och H. Christensen, "Vision SLAM in the Measurement Subspace," i 2005 IEEE International Conference on Robotics and Automation (ICRA), Vols 1-4 Book Series, 2005, s. 30-35.

[82]

J. Folkesson och H. Christensen, "Graphical SLAM : a self-correcting map," i 2004 IEEE INTERNATIONAL CONFERENCE ON ROBOTICS AND AUTOMATION, PROCEEDINGS, 2004, s. 383-390.

[83]

J. Folkesson och H. I. Christensen, "Robust SLAM," i IAV-2004, 2004.

[84]

H. Christensen, J. Folkesson och A. Hedström, "UGV technology for urban navigation," i UNMANNED GROUND VEHICLE TECHNOLOGY VI, 2004, s. 191-197.

[85]

H. Christensen et al., "Ugv technology for urban intervention," i SPIE - Home Security (Orlando, Fl, May 2004)., 2004.

[86]

J. Folkesson och H. Christensen, "Outdoor exploration and SLAM using a compressed filter," i Proceedings - IEEE International Conference on Robotics and Automation, 2003, s. 419-427.

[87]

C. Lundberg et al., "PDA interface for a field robot," i Proc. of the IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS03), 2003, s. 2882-2888.

Kapitel i böcker

[88]

N. Bore, P. Jensfelt och J. Folkesson, "Querying 3D Data by Adjacency Graphs," i Computer Vision Systems, Nalpantidis, Lazaros and Krüger, Volker and Eklundh, Jan-Olof and Gasteratos, Antonios red., : Springer Publishing Company, 2015, s. 243-252.

[89]

M. F. Fallon et al., "Simultaneous Localization and Mapping in Marine Environments," i Marine Robot Autonomy, New York : Springer, 2013, s. 329-372.

[90]

P. Jensfelt, D. Kragic och J. Folkesson, "Bearing-Only Vision SLAM with Distinguishable Image Feature," i Vision Systems Applications, Goro Obinata and Ashish Dutta red., : InTech, 2007.

Icke refereegranskade

Avhandlingar

[91]

J. Folkesson, "Simultaneous localization and mapping with robots," Doktorsavhandling Stockholm : KTH, Trita-NA, 0528, 2005.

Rapporter

[92]

U. Axelsson och J. Folkesson, "Underwater feature extraction and pillar mapping," Stockholm : KTH Royal Institute of Technology, 2015.

Övriga

[93]

I. Torroba Balmori et al., "Online Stochastic Variational Gaussian Process Mapping for Large-Scale SLAM in Real Time," (Manuskript).

[94]

E. Ward och J. Folkesson, "Towards Risk Minimizing Trajectory Planning in On-Road Scenarios," (Manuskript).

Senaste synkning med DiVA:

2024-04-14 03:38:32