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244 results on '"Gavrila, D."'

1. Globally Guided Trajectory Planning in Dynamic Environments

Author

de Groot, O., Ferranti, L., Gavrila, D., and Alonso-Mora, J.

Subjects
Computer Science - Robotics
Abstract

Navigating mobile robots through environments shared with humans is challenging. From the perspective of the robot, humans are dynamic obstacles that must be avoided. These obstacles make the collision-free space nonconvex, which leads to two distinct passing behaviors per obstacle (passing left or right). For local planners, such as receding-horizon trajectory optimization, each behavior presents a local optimum in which the planner can get stuck. This may result in slow or unsafe motion even when a better plan exists. In this work, we identify trajectories for multiple locally optimal driving behaviors, by considering their topology. This identification is made consistent over successive iterations by propagating the topology information. The most suitable high-level trajectory guides a local optimization-based planner, resulting in fast and safe motion plans. We validate the proposed planner on a mobile robot in simulation and real-world experiments., Comment: 7 pages, 6 figures, accepted to IEEE International Conference on Robotics and Automation (ICRA) 2023

Published
2023

2. Scenario-Based Trajectory Optimization in Uncertain Dynamic Environments

Author

de Groot, O., Brito, B., Ferranti, L., Gavrila, D., and Alonso-Mora, J.

Subjects
Computer Science - Robotics
Abstract

We present an optimization-based method to plan the motion of an autonomous robot under the uncertainties associated with dynamic obstacles, such as humans. Our method bounds the marginal risk of collisions at each point in time by incorporating chance constraints into the planning problem. This problem is not suitable for online optimization outright for arbitrary probability distributions. Hence, we sample from these chance constraints using an uncertainty model, to generate "scenarios", which translate the probabilistic constraints into deterministic ones. In practice, each scenario represents the collision constraint for a dynamic obstacle at the location of the sample. The number of theoretically required scenarios can be very large. Nevertheless, by exploiting the geometry of the workspace, we show how to prune most scenarios before optimization and we demonstrate how the reduced scenarios can still provide probabilistic guarantees on the safety of the motion plan. Since our approach is scenario based, we are able to handle arbitrary uncertainty distributions. We apply our method in a Model Predictive Contouring Control framework and demonstrate its benefits in simulations and experiments with a moving robot platform navigating among pedestrians, running in real-time., Comment: 8 pages, 4 figures. To be published in IEEE Robotics and Automation Letters

Published
2021

5. Hidden Gems: 4D Radar Scene Flow Learning Using Cross-Modal Supervision

Author

Ding, Fangqiang (author), Palffy, A. (author), Gavrila, D. (author), Lu, Chris Xiaoxuan (author), Ding, Fangqiang (author), Palffy, A. (author), Gavrila, D. (author), and Lu, Chris Xiaoxuan (author)

Abstract

This work proposes a novel approach to 4D radar-based scene flow estimation via cross-modal learning. Our approach is motivated by the co-located sensing redundancy in modern autonomous vehicles. Such redundancy implicitly provides various forms of supervision cues to the radar scene flow estimation. Specifically, we introduce a multi-task model architecture for the identified cross-modal learning problem and propose loss functions to opportunistically engage scene flow estimation using multiple cross-modal constraints for effective model training. Extensive experiments show the state-of-the-art performance of our method and demonstrate the effectiveness of cross-modal super-vised learning to infer more accurate 4D radar scene flow. We also show its usefulness to two subtasks - motion segmentation and ego-motion estimation. Our source code will be available on https://github.com/Toytiny/CMFlow., Green Open Access added to TU Delft Institutional Repository 'You share, we take care!' - Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public., Microwave Sensing, Signals & Systems, Intelligent Vehicles

Published
2023
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6. Globally Guided Trajectory Planning in Dynamic Environments

Author

de Groot, O.M. (author), Ferranti, L. (author), Gavrila, D. (author), Alonso-Mora, J. (author), de Groot, O.M. (author), Ferranti, L. (author), Gavrila, D. (author), and Alonso-Mora, J. (author)

Abstract

Navigating mobile robots through environments shared with humans is challenging. From the perspective of the robot, humans are dynamic obstacles that must be avoided. These obstacles make the collision-free space nonconvex, which leads to two distinct passing behaviors per obstacle (passing left or right). For local planners, such as receding-horizon trajectory optimization, each behavior presents a local optimum in which the planner can get stuck. This may result in slow or unsafe motion even when a better plan exists. In this work, we identify trajectories for multiple locally optimal driving behaviors, by considering their topology. This identification is made consistent over successive iterations by propagating the topology information. The most suitable high-level trajectory guides a local optimization-based planner, resulting in fast and safe motion plans. We validate the proposed planner on a mobile robot in simulation and real-world experiments., Green Open Access added to TU Delft Institutional Repository 'You share, we take care!' - Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public., Learning & Autonomous Control, Intelligent Vehicles

Published
2023
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7. IntrApose: Monocular Driver 6 DOF Head Pose Estimation Leveraging Camera Intrinsics

Author

Roth, M. (author), Gavrila, D. (author), Roth, M. (author), and Gavrila, D. (author)

Abstract

We present intrApose, a novel method for continuous 6 DOF head pose estimation from a single camera image without prior detection or landmark localization. We argue that using camera intrinsics alongside the intensity information is essential for accurate pose estimation. The proposed head pose estimation framework is crop-aware and scale-aware, i.e., it keeps poses estimated within image cut-outs consistent with the whole image. It employs a continuous, differentiable rotation representation that simplifies the overall architecture compared to existing methods. Our method is validated on DD-Pose, a challenging real-world in-vehicle driver observation dataset that offers a broad spectrum of poses and occlusion states from naturalistic driving scenarios. In ablation studies we compare rotation and translation errors of intrinsics-aware and-agnostic methods, continuous and discontinuous rotation representations, and data sampling strategies. Experiments show that leveraging camera intrinsics and a continuous rotation representation (SVDO+) results in a balanced mean angular error (BMAE) of 5.8° compared to the intrinsics agnostic baseline with a discontinuous rotation representation (14.8°). Furthermore, training with an unbiased data distribution (most driver measurements are close-to-frontal) improved BMAE on the hard subset (extreme orientations and occlusions) from 15.3° to 9.5°., Green Open Access added to TU Delft Institutional Repository 'You share, we take care!' - Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public., Intelligent Vehicles

Published
2023
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8. Detecting darting out pedestrians with occlusion aware sensor fusion of radar and stereo camera

Author

Palffy, A. (author), Kooij, J.F.P. (author), Gavrila, D. (author), Palffy, A. (author), Kooij, J.F.P. (author), and Gavrila, D. (author)

Abstract

Early and accurate detection of crossing pedestrians is crucial in automated driving in order to perform timely emergency manoeuvres. However, this is a difficult task in urban scenarios where pedestrians are often occluded (not visible) behind objects, e.g., other parked vehicles. We propose an occlusion aware fusion of stereo camera and radar sensors to address scenarios with crossing pedestrians behind such parked vehicles. Our proposed method adapts both the expected rate and properties of detections in different areas according to the visibility of the sensors. In our experiments on a real-world dataset, we show that the proposed occlusion aware fusion of radar and stereo camera detects the crossing pedestrians on average 0.26 seconds earlier than using the camera alone, and 0.15 seconds earlier than fusing the sensors without occlusion information. Our dataset containing 501 relevant recordings of pedestrians behind vehicles will be publicly available on our website for non-commercial, scientific use., Green Open Access added to TU Delft Institutional Repository 'You share, we take care!' - Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public., Intelligent Vehicles

Published
2023
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9. A Bayesian Framework for Multi-cue 3D Object Tracking

Author

Giebel, J., Gavrila, D. M., Schnörr, C., Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Dough, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Pajdla, Tomás, editor, and Matas, Jiří, editor

Published
2004
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11. Fast and Compact Image Segmentation using Instance Stixels

Author

Hehn, T.M. (author), Kooij, J.F.P. (author), Gavrila, D. (author), Hehn, T.M. (author), Kooij, J.F.P. (author), and Gavrila, D. (author)

Abstract

State-of-the-art stixel methods fuse dense stereo disparity and semantic class information, e.g. from a Convolutional Neural Network (CNN), into a compact representation of driveable space, obstacles and background. However, they do not explicitly differentiate instances within the same semantic class. We investigate several ways to augment single-frame stixels with instance information, which can be extracted by a CNN from the RGB image input. As a result, our novel Instance Stixels method efficiently computes stixels that account for boundaries of individual objects, and represents instances as grouped stixels that express connectivity. Experiments on the Cityscapes dataset demonstrate that including instance information into the stixel computation itself, rather than as a post-processing step, increases the segmentation performance (i.e. Intersection over Union and Average Precision). This holds especially for overlapping objects of the same class. Furthermore, we show the superiority of our approach in terms of segmentation performance and computational efficiency compared to combining the separate outputs of Semantic Stixels and a state-of-the-art pixel-level CNN. We achieve processing throughput of 28 frames per second on average for 8 pixel wide stixels on images from the Cityscapes dataset at 1792x784 pixels. Our Instance Stixels software is made freely available for non-commercial research purposes., Green Open Access added to TU Delft Institutional Repository 'You share, we take care!' - Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public., Intelligent Vehicles

Published
2022
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12. Multi-class Road User Detection with 3+1D Radar in the View-of-Delft Dataset

Author

Palffy, A. (author), Pool, E.A.I. (author), Baratam, Srimannarayana (author), Kooij, J.F.P. (author), Gavrila, D. (author), Palffy, A. (author), Pool, E.A.I. (author), Baratam, Srimannarayana (author), Kooij, J.F.P. (author), and Gavrila, D. (author)

Abstract

Next-generation automotive radars provide elevation data in addition to range-, azimuth- and Doppler velocity. In this experimental study, we apply a state-of-the-art object detector (PointPillars), previously used for LiDAR 3D data, to such 3+1D radar data (where 1D refers to Doppler). In ablation studies, we first explore the benefits of the additional elevation information, together with that of Doppler, radar cross section and temporal accumulation, in the context of multi-class road user detection. We subsequently compare object detection performance on the radar and LiDAR point clouds, object class-wise and as a function of distance. To facilitate our experimental study, we present the novel View-of-Delft (VoD) automotive dataset. It contains 8693 frames of synchronized and calibrated 64-layer LiDAR-, (stereo) camera-, and 3+1D radar-data acquired in complex, urban traffic. It consists of 123106 3D bounding box annotations of both moving and static objects, including 26587 pedestrian, 10800 cyclist and 26949 car labels. Our results show that object detection on 64-layer LiDAR data still outperforms that on 3+1D radar data, but the addition of elevation information and integration of successive radar scans helps close the gap. The VoD dataset is made freely available for scientific benchmarking., Green Open Access added to TU Delft Institutional Repository 'You share, we take care!' - Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public., Intelligent Vehicles

Published
2022
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13. Learning to Predict Motion from Raw 3D Object Detections

Author

Muench, C. (author), Bijelic, Mario (author), Gavrila, D. (author), Muench, C. (author), Bijelic, Mario (author), and Gavrila, D. (author)

Abstract

We show how to design a motion prediction algorithm that works with 3D object detections and map locations. In particular, we obtain object id’s – even though the training data does not contain any object id’s – across multiple time-steps into the future by propagating a Gaussian Mixture of likely object (e.g., vehicle) locations through time.We validate our approach on the nuScenes dataset. First, we find that a motion prediction algorithm without tracking id’s performs as well as motion prediction algorithm with tracking id’s in the training data. Second, the 3D labels of an on-board perception system are inferior (e.g., loss of detections, positional uncertainty) to those generated by offline labelling (automatic labelling pipeline, manual labelling). Even so, we find that a moderate increase in the size of the training data offsets the deterioration in prediction performance (with no additional offline labelling)., Green Open Access added to TU Delft Institutional Repository 'You share, we take care!' - Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public., Intelligent Vehicles

Published
2022
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14. Driver and Pedestrian Mutual Awareness for Path Prediction and Collision Risk Estimation

Author

Roth, M. (author), Stapel, J.C.J. (author), Happee, R. (author), Gavrila, D. (author), Roth, M. (author), Stapel, J.C.J. (author), Happee, R. (author), and Gavrila, D. (author)

Abstract

We present a novel method for vehicle-pedestrian path prediction that takes into account the awareness of the driver and the pedestrian towards each other. The method jointly models the paths of vehicle and pedestrian within a single Dynamic Bayesian Network (DBN). In this DBN, sub-graphs model the environment and entity-specific context cues of the vehicle and pedestrian (incl. awareness), which affect their future motion and allow to increase the prediction horizon. These sub-graphs share a latent state which models whether vehicle and pedestrian are on collision course; this accounts for a certain degree of motion coupling. The method was validated with real-world data obtained by onboard vehicle sensing (stereo vision, GNSS and proprioceptive). Data consist of 93 vehicle and pedestrian encounters, spanning various awareness conditions and dynamic characteristics of the participants. In ablation studies, we quantify the benefits of various components of our proposed DBN model for path prediction and collision risk estimation. Results show that at a prediction horizon of 1.5 s, context aware models outperform context-agnostic models in path prediction for scenarios with a dynamics change, while performing similarly otherwise. Results further indicate that driver attention aware models improve collision risk estimation compared to driver-agnostic models., Green Open Access added to TU Delft Institutional Repository 'You share, we take care!' - Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public., Intelligent Vehicles

Published
2022
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15. Semantic Scene Completion using Local Deep Implicit Functions on LiDAR Data

Author

Rist, C.B. (author), Emmerichs, David (author), Enzweiler, Markus (author), Gavrila, D. (author), Rist, C.B. (author), Emmerichs, David (author), Enzweiler, Markus (author), and Gavrila, D. (author)

Abstract

Semantic scene completion is the task of jointly estimating 3D geometry and semantics of objects and surfaces within a given extent. This is a particularly challenging task on real-world data that is sparse and occluded. We propose a scene segmentation network based on local Deep Implicit Functions as a novel learning-based method for scene completion. Unlike previous work on scene completion, our method produces a continuous scene representation that is not based on voxelization. We encode raw point clouds into a latent space locally and at multiple spatial resolutions. A global scene completion function is subsequently assembled from the localized function patches. We show that this continuous representation is suitable to encode geometric and semantic properties of extensive outdoor scenes without the need for spatial discretization (thus avoiding the trade-off between level of scene detail and the scene extent that can be covered). We train and evaluate our method on semantically annotated LiDAR scans from the Semantic KITTI dataset. Our experiments verify that our method generates a powerful representation that can be decoded into a dense 3D description of a given scene. The performance of our method surpasses the state of the art on the Semantic KITTI Scene Completion Benchmark in terms of geometric completion intersection-over-union (IoU)., Green Open Access added to TU Delft Institutional Repository 'You share, we take care!' - Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public., Intelligent Vehicles

Published
2022
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19. Dietary vitamin D intake and risk of type 2 diabetes in the European Prospective Investigation into Cancer and Nutrition: the EPIC-InterAct study

Author

Abbas, S, Linseisen, J, Rohrmann, S, Beulens, J W J, Buijsse, B, Amiano, P, Ardanaz, E, Balkau, B, Boeing, H, Clavel-Chapelon, F, Fagherazzi, G, Franks, P W, Gavrila, D, Grioni, S, Kaaks, R, Key, T J, Khaw, K T, Kühn, T, Mattiello, A, Molina-Montes, E, Nilsson, P M, Overvad, K, Quirós, J R, Rolandsson, O, Sacerdote, C, Saieva, C, Slimani, N, Sluijs, I, Spijkerman, A M W, Tjonneland, A, Tumino, R, van der A, D L, Zamora-Ros, R, Sharp, S J, Langenberg, C, Forouhi, N G, Riboli, E, and Wareham, N J

Published
2014
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20. Crafted vs. Learned Representations in Predictive Models - A Case Study on Cyclist Path Prediction

Author

Pool, E.A.I. (author), Kooij, J.F.P. (author), Gavrila, D. (author), Pool, E.A.I. (author), Kooij, J.F.P. (author), and Gavrila, D. (author)

Abstract

This paper compares two models for context-based path prediction of objects with switching dynamics: a Dynamic Bayesian Network (DBN) and a Recurrent Neural Network (RNN). These models are instances of two larger model categories, distinguished by whether expert knowledge is explicitly crafted into the state representation (and thus is interpretable) or whether the representation is learned from data, respectively. Both have shown state-of-the-art performance in previous work. In order to provide a fair comparison, we ensure that both models are treated similarly with respect to the use of context cues and parameter estimation. Specifically, we describe (1) how to integrate the context cues (used previously by the DBN) into the RNN, and (2) how to optimize the DBN with back-propagation similar to the RNN, while keeping an interpretable state representation. Experiments are performed on a scenario where a cyclist might turn left at an intersection in front of the ego-vehicle. Results show that the RNN successfully leverages the context cues, and that optimizing the DBN improves its performance with respect to existing work. While the RNN outperforms the optimized DBN in predictive log-likelihood by a significant margin, both models attain similar average Euclidean distance errors (23-39 cm for DBN and 31-34 cm for RNN, predicting 1 s ahead)., Green Open Access added to TU Delft Institutional Repository 'You share, we take care!' - Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public., Intelligent Vehicles

Published
2021
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21. Towards the detection of driver–pedestrian eye contact

Author

Onkhar, V. (author), Bazilinskyy, P. (author), Stapel, J.C.J. (author), Dodou, D. (author), Gavrila, D. (author), de Winter, J.C.F. (author), Onkhar, V. (author), Bazilinskyy, P. (author), Stapel, J.C.J. (author), Dodou, D. (author), Gavrila, D. (author), and de Winter, J.C.F. (author)

Abstract

Non-verbal communication, such as eye contact between drivers and pedestrians, has been regarded as one way to reduce accident risk. So far, studies have assumed rather than objectively measured the occurrence of eye contact. We address this research gap by developing an eye contact detection method and testing it in an indoor experiment with scripted driver–pedestrian interactions at a pedestrian crossing. Thirty participants acted as a pedestrian either standing on an imaginary curb or crossing an imaginary one-lane road in front of a stationary vehicle with an experimenter in the driver's seat. In half of the trials, pedestrians were instructed to make eye contact with the driver; in the other half, they were prohibited from doing so. Both parties’ gaze was recorded using eye trackers. An in-vehicle stereo camera recorded the car's point of view, a head-mounted camera recorded the pedestrian's point of view, and the location of the driver's and pedestrian's eyes was estimated using image recognition. We demonstrate that eye contact can be detected by measuring the angles between the vector joining the estimated location of the driver's and pedestrian's eyes, and the pedestrian's and driver's instantaneous gaze directions, respectively, and identifying whether these angles fall below a threshold of 4°. We achieved 100% correct classification of the trials involving eye contact and those without eye contact, based on measured eye contact duration. The proposed eye contact detection method may be useful for future research into eye contact., Human-Robot Interaction, Intelligent Vehicles, Medical Instruments & Bio-Inspired Technology

Published
2021
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22. A Joint Extrinsic Calibration Tool for Radar, Camera and Lidar

Author

Domhof, J.F.M. (author), Kooij, J.F.P. (author), Gavrila, D. (author), Domhof, J.F.M. (author), Kooij, J.F.P. (author), and Gavrila, D. (author)

Abstract

We address joint extrinsic calibration of lidar, camera and radar sensors. To simplify calibration, we propose a single calibration target design for all three modalities, and implement our approach in an open-source tool with bindings to Robot Operating System (ROS). Our tool features three optimization configurations, namely using error terms for a minimal number of sensor pairs, or using terms for all sensor pairs in combination with loop closure constraints, or by adding terms for structure estimation in a probabilistic model. Apart from relative calibration where relative transformations between sensors are computed, our work also addresses absolute calibration that includes calibration with respect to the mobile robot's body. Two methods are compared to estimate the body reference frame using an external laser scanner, one based on markers and the other based on manual annotation of the laser scan. In the experiments, we evaluate the three configurations for relative calibration. Our results show that using terms for all sensor pairs is most robust, especially for lidar to radar, when minimum five board locations are used. For absolute calibration the median rotation error around the vertical axis reduces from 1 before calibration, to 0.33 using the markers and 0.02 with manual annotations., Green Open Access added to TU Delft Institutional Repository 'You share, we take care!' - Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public., Intelligent Vehicles

Published
2021
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23. Scenario-Based Trajectory Optimization in Uncertain Dynamic Environments

Author

de Groot, O.M. (author), Ferreira de Brito, B.F. (author), Ferranti, L. (author), Gavrila, D. (author), Alonso Mora, J. (author), de Groot, O.M. (author), Ferreira de Brito, B.F. (author), Ferranti, L. (author), Gavrila, D. (author), and Alonso Mora, J. (author)

Abstract

We present an optimization-based method to plan the motion of an autonomous robot under the uncertainties associated with dynamic obstacles, such as humans. Our method bounds the marginal risk of collisions at each point in time by incorporating chance constraints into the planning problem. This problem is not suitable for online optimization outright for arbitrary probability distributions. Hence, we sample from these chance constraints to generate scenarios, which translate the probabilistic constraints into deterministic ones. In practice, each scenario represents the collision constraint for a dynamic obstacle at the location of the sample. The number of theoretically required scenarios can be very large. Nevertheless, by exploiting the geometry of the workspace, we show how to prune most scenarios before optimization and we demonstrate how the reduced scenarios can still provide probabilistic guarantees on the safety of the motion plan. Since our approach is scenario based, we are able to handle arbitrary uncertainty distributions. We apply our method in a Model Predictive Contouring Control framework and demonstrate its benefits in simulations and experiments with a moving robot platform navigating among pedestrians, running in real-time., Learning & Autonomous Control, Intelligent Vehicles

Published
2021
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24. General-Sum Multi-Agent Continuous Inverse Optimal Control

Author

Muench, C. (author), Oliehoek, F.A. (author), Gavrila, D. (author), Muench, C. (author), Oliehoek, F.A. (author), and Gavrila, D. (author)

Abstract

Modeling possible future outcomes of robot-human interactions is of importance in the intelligent vehicle and mobile robotics domains. Knowing the reward function that explains the observed behavior of a human agent is advantageous for modeling the behavior with Markov Decision Processes (MDPs). However, learning the rewards that determine the observed actions from data is complicated by interactions. We present a novel inverse reinforcement learning (IRL) algorithm that can infer the reward function in multi-Agent interactive scenarios. In particular, the agents may act boundedly rational (i.e., sub-optimal), a characteristic that is typical for human decision making. Additionally, every agent optimizes its own reward function which makes it possible to address non-cooperative setups. In contrast to other methods, the algorithm does not rely on reinforcement learning during inference of the parameters of the reward function. We demonstrate that our proposed method accurately infers the ground truth reward function in two-Agent interactive experiments.1, Green Open Access added to TU Delft Institutional Repository ‘You share, we take care!’ – Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public., Intelligent Vehicles, Interactive Intelligence

Published
2021
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27. Human motion trajectory prediction: a survey

Author

Rudenko, Andrey, Palmieri, Luigi, Herman, Michael, Kitani, Kris M., Gavrila, D., and Arras, Kai O.

Subjects
robotics, autonomous driving, review, motion prediction, video surveillance, Survey
Abstract

With growing numbers of intelligent autonomous systems in human environments, the ability of such systems to perceive, understand, and anticipate human behavior becomes increasingly important. Specifically, predicting future positions of dynamic agents and planning considering such predictions are key tasks for self-driving vehicles, service robots, and advanced surveillance systems. This article provides a survey of human motion trajectory prediction. We review, analyze, and structure a large selection of work from different communities and propose a taxonomy that categorizes existing methods based on the motion modeling approach and level of contextual information used. We provide an overview of the existing datasets and performance metrics. We discuss limitations of the state of the art and outline directions for further research.

Published
2020

29. Human motion trajectory prediction: a survey

Author

Rudenko, Andrey (author), Palmieri, Luigi (author), Herman, Michael (author), Kitani, Kris M. (author), Gavrila, D. (author), Arras, Kai O. (author), Rudenko, Andrey (author), Palmieri, Luigi (author), Herman, Michael (author), Kitani, Kris M. (author), Gavrila, D. (author), and Arras, Kai O. (author)

Abstract

With growing numbers of intelligent autonomous systems in human environments, the ability of such systems to perceive, understand, and anticipate human behavior becomes increasingly important. Specifically, predicting future positions of dynamic agents and planning considering such predictions are key tasks for self-driving vehicles, service robots, and advanced surveillance systems. This article provides a survey of human motion trajectory prediction. We review, analyze, and structure a large selection of work from different communities and propose a taxonomy that categorizes existing methods based on the motion modeling approach and level of contextual information used. We provide an overview of the existing datasets and performance metrics. We discuss limitations of the state of the art and outline directions for further research., Accepted Author Manuscript, Intelligent Vehicles

Published
2020
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30. CNN Based Road User Detection Using the 3D Radar Cube

Author

Palffy, A. (author), Dong, Jiaao (author), Kooij, J.F.P. (author), Gavrila, D. (author), Palffy, A. (author), Dong, Jiaao (author), Kooij, J.F.P. (author), and Gavrila, D. (author)

Abstract

This letter presents a novel radar based, single-frame, multi-class detection method for moving road users ( pedestrian, cyclist, car ), which utilizes low-level radar cube data. The method provides class information both on the radar target- and object-level. Radar targets are classified individually after extending the target features with a cropped block of the 3D radar cube around their positions, thereby capturing the motion of moving parts in the local velocity distribution. A Convolutional Neural Network (CNN) is proposed for this classification step. Afterwards, object proposals are generated with a clustering step, which not only considers the radar targets’ positions and velocities, but their calculated class scores as well. In experiments on a real-life dataset we demonstrate that our method outperforms the state-of-the-art methods both target- and object-wise by reaching an average of 0.70 (baseline: 0.68) target-wise and 0.56 (baseline: 0.48) object-wise F1 score. Furthermore, we examine the importance of the used features in an ablation study., Green Open Access added to TU Delft Institutional Repository 'You share, we take care!' - Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public., Intelligent Vehicles

Published
2020
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34. General and abdominal adiposity and the risk of Parkinson's disease: A prospective cohort study

Author

Riso, L. Kaaks, R. Kühn, T. Sookthai, D. Forsgren, L. Trupp, M. Trichopoulou, A. La Vecchia, C. Karakatsani, A. Gavrila, D. Ferrari, P. Freisling, H. Petersson, J. Lewan, S. Vermeulen, R.C. Panico, S. Masala, G. Ardanaz, E. Krogh, V. Perneczky, R. Middleton, L.T. Mokoroa, O. Sacerdote, C. Sieri, S. Hayat, S.A. Brayne, C. Riboli, E. Vineis, P. Gallo, V. Katzke, V.A.

Abstract

Introduction: Due to demographic change, an increase in the frequency of Parkinson's disease (PD) patients is expected in the future and, thus, the identification of modifiable risk factors is urgently needed. We aimed to examine the associations of body mass index (BMI) and waist circumference (WC) with incident PD. Methods: In 13 of the 23 centers of the European Prospective Investigation into Cancer and Nutrition (EPIC) study, a total of 734 incident cases of PD were identified between 1992 and 2012 with a mean follow-up of 12 years. Cox proportional hazards regression was used to calculate hazard ratios (HR) with 95% confidence intervals (CI). We modelled anthropometric variables as continuous and categorical exposures and performed subgroup analyses by potential effect modifiers including sex and smoking. Results: We found no association between BMI, WC and incident PD, neither among men nor among women. Among never and former smokers, BMI and waist circumference were also not associated with PD risk. For male smokers, however, we observed a statistically significant inverse association between BMI and PD risk (HR 0.51, 95%CI: 0.30, 0.84) and the opposite for women, i.e. a significant direct association of BMI (HR 1.79, 95%CI: 1.04, 3.08) and waist circumference (HR 1.64, 95%CI: 1.03, 2.61) with risk of PD. Conclusion: Our data revealed no association between excess weight and PD risk but a possible interaction between anthropometry, sex and smoking. © 2019 Elsevier Ltd

Published
2019

35. Exploring causality of the association between smoking and Parkinson's disease

Author

Gallo, V. Vineis, P. Cancellieri, M. Chiodini, P. Barker, R.A. Brayne, C. Pearce, N. Vermeulen, R. Panico, S. Bueno-De-Mesquita, B. Vanacore, N. Forsgren, L. Ramat, S. Ardanaz, E. Arriola, L. Peterson, J. Hansson, O. Gavrila, D. Sacerdote, C. Sieri, S. Kühn, T. Katzke, V.A. Van Der Schouw, Y.T. Kyrozis, A. Masala, G. Mattiello, A. Perneczky, R. Middleton, L. Saracci, R. Riboli, E.

Abstract

Background: The aim of this paper is to investigate the causality of the inverse association between cigarette smoking and Parkinson's disease (PD). The main suggested alternatives include a delaying effect of smoking, reverse causality or an unmeasured confounding related to a low-risk-taking personality trait. Methods: A total of 715 incident PD cases were ascertained in a cohort of 220 494 individuals from NeuroEPIC4PD, a prospective European population-based cohort study including 13 centres in eight countries. Smoking habits were recorded at recruitment. We analysed smoking status, duration, and intensity and exposure to passive smoking in relation to PD onset. Results: Former smokers had a 20% decreased risk and current smokers a halved risk of developing PD compared with never smokers. Strong dose-response relationships with smoking intensity and duration were found. Hazard ratios (HRs) for smoking 30 years 0.54 (95% CI 0.43-0.36) compared with never smokers. The proportional hazard assumption was verified, showing no change of risk over time, arguing against a delaying effect. Reverse causality was disproved by the consistency of dose-response relationships among former and current smokers. The inverse association between passive smoking and PD, HR 0.70 (95% CI 0.49-0.99) ruled out the effect of unmeasured confounding. Conclusions: These results are highly suggestive of a true causal link between smoking and PD, although it is not clear which is the chemical compound in cigarette smoking responsible for the biological effect. © 2018 The Author(s) 2018. Published by Oxford University Press on behalf of the International Epidemiological Association.

Published
2019

36. General and abdominal adiposity and the risk of Parkinson's disease: A prospective cohort study

Author

Riso, L., Kaaks, R., Kühn, T., Sookthai, D., Forsgren, L., Trupp, M., Trichopoulou, A., La Vecchia, C., Karakatsani, A., Gavrila, D., Ferrari, P., Freisling, H., Petersson, J., Lewan, S., Vermeulen, R.C., Panico, S., Masala, G., Ardanaz, E., Krogh, V., Perneczky, R., Middleton, L.T., Mokoroa, O., Sacerdote, C., Sieri, S., Hayat, S.A., Brayne, C., Riboli, E., Vineis, P., Gallo, V., Katzke, V.A., Riso, L., Kaaks, R., Kühn, T., Sookthai, D., Forsgren, L., Trupp, M., Trichopoulou, A., La Vecchia, C., Karakatsani, A., Gavrila, D., Ferrari, P., Freisling, H., Petersson, J., Lewan, S., Vermeulen, R.C., Panico, S., Masala, G., Ardanaz, E., Krogh, V., Perneczky, R., Middleton, L.T., Mokoroa, O., Sacerdote, C., Sieri, S., Hayat, S.A., Brayne, C., Riboli, E., Vineis, P., Gallo, V., and Katzke, V.A.

Published
2019

37. SafeVRU: A research platform for the interaction of self-driving vehicles with vulnerable road users

Author

Ferranti, L. (author), Ferreira de Brito, B.F. (author), Pool, E.A.I. (author), Zheng, Y. (author), Ensing, R.M. (author), Happee, R. (author), Shyrokau, B. (author), Kooij, J.F.P. (author), Alonso Mora, J. (author), Gavrila, D. (author), Ferranti, L. (author), Ferreira de Brito, B.F. (author), Pool, E.A.I. (author), Zheng, Y. (author), Ensing, R.M. (author), Happee, R. (author), Shyrokau, B. (author), Kooij, J.F.P. (author), Alonso Mora, J. (author), and Gavrila, D. (author)

Abstract

This paper presents our research platform SafeVRU for the interaction of self-driving vehicles with Vulnerable Road Users (VRUs, i.e., pedestrians and cyclists). The paper details the design (implemented with a modular structure within ROS) of the full stack of vehicle localization, environment perception, motion planning, and control, with emphasis on the environment perception and planning modules. The environment perception detects the VRUs using a stereo camera and predicts their paths with Dynamic Bayesian Networks (DBNs), which can account for switching dynamics. The motion planner is based on model predictive contouring control (MPCC) and takes into account vehicle dynamics, control objectives (e.g., desired speed), and perceived environment (i.e., the predicted VRU paths with behavioral uncertainties) over a certain time horizon. We present simulation and real-world results to illustrate the ability of our vehicle to plan and execute collision-free trajectories in the presence of VRUs., Green Open Access added to TU Delft Institutional Repository ‘You share, we take care!’ – Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public., Intelligent Vehicles, Learning & Autonomous Control

Published
2019
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38. Privacy protection in street-view panoramas using depth and multi-view imagery

Author

Uittenbogaard, Ries (author), Sebastian, Clint (author), Vijverberg, Julien (author), Boom, Bas (author), Gavrila, D. (author), De With, Peter H.N. (author), Uittenbogaard, Ries (author), Sebastian, Clint (author), Vijverberg, Julien (author), Boom, Bas (author), Gavrila, D. (author), and De With, Peter H.N. (author)

Abstract

The current paradigm in privacy protection in street- view images is to detect and blur sensitive information. In this paper, we propose a framework that is an alternative to blurring, which automatically removes and inpaints moving objects (e.g. pedestrians, vehicles) in street-view imagery. We propose a novel moving object segmentation algorithm exploiting consistencies in depth across multiple street-view images that are later combined with the results of a segmentation network. The detected moving objects are removed and inpainted with information from other views, to obtain a realistic output image such that the moving object is not visible anymore. We evaluate our results on a dataset of 1000 images to obtain a peak noise-to-signal ratio (PSNR) and L1 loss of 27.2 dB and 2.5%, respectively. To assess overall quality, we also report the results of a survey conducted on 35 professionals, asked to visually inspect the images whether object removal and inpainting had taken place. The inpainting dataset will be made publicly available for scientific benchmarking purposes at https://research.cyclomedia.com/., Accepted Author Manuscript, Intelligent Vehicles

Published
2019
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39. Deep end-to-end 3D person detection from Camera and Lidar

Author

Roth, M. (author), Jargot, Dominik (author), Gavrila, D. (author), Roth, M. (author), Jargot, Dominik (author), and Gavrila, D. (author)

Abstract

We present a method for 3D person detection from camera images and lidar point clouds in automotive scenes. The method comprises a deep neural network which estimates the 3D location and extent of persons present in the scene. 3D anchor proposals are refined in two stages: a region proposal network and a subsequent detection network.For both input modalities high-level feature representations are learned from raw sensor data instead of being manually designed. To that end, we use Voxel Feature Encoders [1] to obtain point cloud features instead of widely used projection-based point cloud representations, thus allowing the network to learn to predict the location and extent of persons in an end-to-end manner.Experiments on the validation set of the KITTI 3D object detection benchmark [2] show that the proposed method outperforms state-of-the-art methods with an average precision (AP) of 47.06% on moderate difficulty., Accepted Author Manuscript, Intelligent Vehicles

Published
2019
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40. Generating 3D person trajectories from sparse image annotations in an intelligent vehicles setting

Author

Krebs, S.A. (author), Braun, M. (author), Gavrila, D. (author), Krebs, S.A. (author), Braun, M. (author), and Gavrila, D. (author)

Abstract

This paper presents an approach to generate dense person 3D trajectories from sparse image annotations on-board a moving platform. Our approach leverages the additional information that is typically available in an intelligent vehicle setting, such as LiDAR sensor measurements (to obtain 3D positions from detected 2D image bounding boxes) and inertial sensing (to perform ego-motion compensation). The sparse manual 2D person annotations that are available at regular time intervals (key-frames) are augmented with the output of a state-of-the-art 2D person detector, to obtain frame-wise data. A graph-based batch optimization approach is subsequently performed to find the best 3D trajectories, accounting for erroneous person detector output (false positives, false negatives, imprecise localization) and unknown temporal correspondences. Experiments on the EuroCity Persons dataset show promising results., Accepted Author Manuscript, Intelligent Vehicles

Published
2019
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41. Context-based cyclist path prediction using Recurrent Neural Networks

Author

Pool, E.A.I. (author), Kooij, J.F.P. (author), Gavrila, D. (author), Pool, E.A.I. (author), Kooij, J.F.P. (author), and Gavrila, D. (author)

Abstract

This paper proposes a Recurrent Neural Network (RNN) for cyclist path prediction to learn the effect of contextual cues on the behavior directly in an end- to-end approach, removing the need for any annotations. The proposed RNN incorporates three distinct contextual cues: one related to actions of the cyclist, one related to the location of the cyclist on the road, and one related to the interaction between the cyclist and the egovehicle. The RNN predicts a Gaussian distribution over the future position of the cyclist one second into the future with a higher accuracy, compared to a current state-of-the-art model that is based on dynamic mode annotations, where our model attains an average prediction error of 33 cm one second into the future., Green Open Access added to TU Delft Institutional Repository 'You share, we take care!' - Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public., Intelligent Vehicles

Published
2019
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42. DD-Pose: A large-scale Driver Head Pose Benchmark

Author

Roth, M. (author), Gavrila, D. (author), Roth, M. (author), and Gavrila, D. (author)

Abstract

We introduce DD-Pose, the Daimler TU Delft Driver Head Pose Benchmark, a large-scale and diverse benchmark for image-based head pose estimation and driver analysis. It contains 330k measurements from multiple cameras acquired by an in-car setup during naturalistic drives. Large out-of-plane head rotations and occlusions are induced by complex driving scenarios, such as parking and driver-pedestrian interactions. Precise head pose annotations are obtained by a motion capture sensor and a novel calibration device. A high resolution stereo driver camera is supplemented by a camera capturing the driver cabin. Together with steering wheel and vehicle motion information, DD-Pose paves the way for holistic driver analysis. Our experiments show that the new dataset offers a broad distribution of head poses, comprising an order of magnitude more samples of rare poses than a comparable dataset. By an analysis of a state-of-the-art head pose estimation method, we demonstrate the challenges offered by the benchmark. The dataset and evaluation code are made freely available to academic and non-profit institutions for non-commercial benchmarking purposes., Accepted Author Manuscript, Intelligent Vehicles

Published
2019
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43. Occlusion aware sensor fusion for early crossing pedestrian detection

Author

Palffy, A. (author), Kooij, J.F.P. (author), Gavrila, D. (author), Palffy, A. (author), Kooij, J.F.P. (author), and Gavrila, D. (author)

Abstract

Early and accurate detection of crossing pedestrians is crucial in automated driving to execute emergency manoeuvres in time. This is a challenging task in urban scenarios however, where people are often occluded (not visible) behind objects, e.g. other parked vehicles. In this paper, an occlusion aware multi-modal sensor fusion system is proposed to address scenarios with crossing pedestrians behind parked vehicles. Our proposed method adjusts the detection rate in different areas based on sensor visibility. We argue that using this occlusion information can help to evaluate the measurements. Our experiments on real world data show that fusing radar and stereo camera for such tasks is beneficial, and that including occlusion into the model helps to detect pedestrians earlier and more accurately., Green Open Access added to TU Delft Institutional Repository 'You share, we take care!' - Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public., Intelligent Vehicles

Published
2019
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44. An Extrinsic Calibration Tool for Radar, Camera and Lidar

Author

Domhof, J.F.M. (author), Kooij, J.F.P. (author), Gavrila, D. (author), Domhof, J.F.M. (author), Kooij, J.F.P. (author), and Gavrila, D. (author)

Abstract

We present a novel open-source tool for extrinsic calibration of radar, camera and lidar. Unlike currently available offerings, our tool facilitates joint extrinsic calibration of all three sensing modalities on multiple measurements. Furthermore, our calibration target design extends existing work to obtain simultaneous measurements for all these modalities. We study how various factors of the calibration procedure affect the outcome on real multi-modal measurements of the target. Three different configurations of the optimization criterion are considered, namely using error terms for a minimal amount of sensor pairs, or using terms for all sensor pairs with additional loop closure constraints, or by adding terms for structure estimation in a probabilistic model. The experiments further evaluate how the number of calibration boards affect calibration performance, and robustness against different levels of zero mean Gaussian noise. Our results show that all configurations achieve good results for lidar to camera errors and that fully connected pose estimation shows the best performance for lidar to radar errors when more than five board locations are used., Green Open Access added to TU Delft Institutional Repository 'You share, we take care!' - Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public., Intelligent Vehicles

Published
2019
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45. Cross-sensor deep domain adaptation for LiDAR detection and segmentation

Author

Rist, C.B. (author), Enzweiler, Markus (author), Gavrila, D. (author), Rist, C.B. (author), Enzweiler, Markus (author), and Gavrila, D. (author)

Abstract

A considerable amount of annotated training data is necessary to achieve state-of-the-art performance in perception tasks using point clouds. Unlike RGB-images, LiDAR point clouds captured with different sensors or varied mounting positions exhibit a significant shift in their input data distribution. This can impede transfer of trained feature extractors between datasets as it degrades performance vastly. We analyze the transferability of point cloud features between two different LiDAR sensor set-ups (32 and 64 vertical scanning planes with different geometry). We propose a supervised training methodology to learn transferable features in a pre-training step on LiDAR datasets that are heterogeneous in their data and label domains. In extensive experiments on object detection and semantic segmentation in a multi-task setup we analyze the performance of our network architecture under the impact of a change in the input data domain. We show that our pre-training approach effectively increases performance for both target tasks at once without having an actual multi-task dataset available for pre-training., Accepted Author Manuscript, Intelligent Vehicles

Published
2019
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46. Composable Q- functions for pedestrian car interactions

Author

Muench, C. (author), Gavrila, D. (author), Muench, C. (author), and Gavrila, D. (author)

Abstract

We propose a novel algorithm that predicts the interaction of pedestrians with cars within a Markov Decision Process framework. It leverages the fact that Q-functions may be composed in the maximum-entropy framework, thus the solutions of two sub-tasks may be combined to approximate the full interaction problem. Sub-task one is the interaction-free navigation of a pedestrian in an urban environment and sub-task two is the interaction with an approaching car (deceleration, waiting etc.) without accounting for the environmental context (e.g. street layout). We propose a regularization scheme motivated by the soft-Bellman-equations and illustrate its necessity. We then analyze the properties of the algorithm in detail with a toy model. We find that as long as the interaction-free sub-task is modelled well with a Q-function, we can learn a representation of the interaction between a pedestrian and a car., Accepted Author Manuscript, Intelligent Vehicles

Published
2019
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47. EuroCity persons: A novel benchmark for person detection in traffic scenes

Author

Braun, M. (author), Krebs, S.A. (author), Flohr, F.B. (author), Gavrila, D. (author), Braun, M. (author), Krebs, S.A. (author), Flohr, F.B. (author), and Gavrila, D. (author)

Abstract

Big data has had a great share in the success of deep learning in computer vision. Recent works suggest that there is significant further potential to increase object detection performance by utilizing even bigger datasets. In this paper, we introduce the EuroCity Persons dataset, which provides a large number of highly diverse, accurate and detailed annotations of pedestrians, cyclists and other riders in urban traffic scenes. The images for this dataset were collected on-board a moving vehicle in 31 cities of 12 European countries. With over 238,200 person instances manually labeled in over 47,300 images, EuroCity Persons is nearly one order of magnitude larger than datasets used previously for person detection in traffic scenes. The dataset furthermore contains a large number of person orientation annotations (over 211,200). We optimize four state-of-the-art deep learning approaches (Faster R-CNN, R-FCN, SSD and YOLOv3) to serve as baselines for the new object detection benchmark. In experiments with previous datasets we analyze the generalization capabilities of these detectors when trained with the new dataset. We furthermore study the effect of the training set size, the dataset diversity (day- versus night-time, geographical region), the dataset detail (i.e., availability of object orientation information) and the annotation quality on the detector performance. Finally, we analyze error sources and discuss the road ahead., Accepted Author Manuscript, Intelligent Vehicles

Published
2019
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48. Context-based path prediction for targets with switching dynamics

Author

Kooij, J.F.P. (author), Flohr, F.B. (author), Pool, E.A.I. (author), Gavrila, D. (author), Kooij, J.F.P. (author), Flohr, F.B. (author), Pool, E.A.I. (author), and Gavrila, D. (author)

Abstract

Anticipating future situations from streaming sensor data is a key perception challenge for mobile robotics and automated vehicles. We address the problem of predicting the path of objects with multiple dynamic modes. The dynamics of such targets can be described by a Switching Linear Dynamical System (SLDS). However, predictions from this probabilistic model cannot anticipate when a change in dynamic mode will occur. We propose to extract various types of cues with computer vision to provide context on the target’s behavior, and incorporate these in a Dynamic Bayesian Network (DBN). The DBN extends the SLDS by conditioning the mode transition probabilities on additional context states. We describe efficient online inference in this DBN for probabilistic path prediction, accounting for uncertainty in both measurements and target behavior. Our approach is illustrated on two scenarios in the Intelligent Vehicles domain concerning pedestrians and cyclists, so-called Vulnerable Road Users (VRUs). Here, context cues include the static environment of the VRU, its dynamic environment, and its observed actions. Experiments using stereo vision data from a moving vehicle demonstrate that the proposed approach results in more accurate path prediction than SLDS at the relevant short time horizon (1 s). It slightly outperforms a computationally more demanding state-of-the-art method., Intelligent Vehicles

Published
2019
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49. Instance stixels: Segmenting and grouping stixels into objects

Author

Hehn, T.M. (author), Kooij, J.F.P. (author), Gavrila, D. (author), Hehn, T.M. (author), Kooij, J.F.P. (author), and Gavrila, D. (author)

Abstract

State-of-the-art stixel methods fuse dense stereo and semantic class information, e.g. from a Convolutional Neural Network (CNN), into a compact representation of driveable space, obstacles, and background. However, they do not explicitly differentiate instances within the same class. We investigate several ways to augment single-frame stixels with instance information, which can similarly be extracted by a CNN from the color input. As a result, our novel Instance Stixels method efficiently computes stixels that do account for boundaries of individual objects, and represents individual instances as grouped stixels that express connectivity. Experiments on Cityscapes demonstrate that including instance information into the stixel computation itself, rather than as a post-processing step, increases Instance AP performance with approximately the same number of stixels. Qualitative results confirm that segmentation improves, especially for overlapping objects of the same class. Additional tests with ground truth instead of CNN output show that the approach has potential for even larger gains. Our Instance Stixels software is made freely available for non-commercial research purposes., Green Open Access added to TU Delft Institutional Repository 'You share, we take care!' - Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public., Intelligent Vehicles

Published
2019
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