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37 results on '"Roehrbein, Florian"'

1. Multi-Agent Reinforcement Learning for Autonomous Driving: A Survey

Author

Zhang, Ruiqi, Hou, Jing, Walter, Florian, Gu, Shangding, Guan, Jiayi, Röhrbein, Florian, Du, Yali, Cai, Panpan, Chen, Guang, and Knoll, Alois

Subjects
Computer Science - Artificial Intelligence, Computer Science - Multiagent Systems, Computer Science - Robotics
Abstract

Reinforcement Learning (RL) is a potent tool for sequential decision-making and has achieved performance surpassing human capabilities across many challenging real-world tasks. As the extension of RL in the multi-agent system domain, multi-agent RL (MARL) not only need to learn the control policy but also requires consideration regarding interactions with all other agents in the environment, mutual influences among different system components, and the distribution of computational resources. This augments the complexity of algorithmic design and poses higher requirements on computational resources. Simultaneously, simulators are crucial to obtain realistic data, which is the fundamentals of RL. In this paper, we first propose a series of metrics of simulators and summarize the features of existing benchmarks. Second, to ease comprehension, we recall the foundational knowledge and then synthesize the recently advanced studies of MARL-related autonomous driving and intelligent transportation systems. Specifically, we examine their environmental modeling, state representation, perception units, and algorithm design. Conclusively, we discuss open challenges as well as prospects and opportunities. We hope this paper can help the researchers integrate MARL technologies and trigger more insightful ideas toward the intelligent and autonomous driving., Comment: 23 pages, 6 figures and 2 tables. Submitted to IEEE Journal

Published
2024

2. GLC++: Source-Free Universal Domain Adaptation through Global-Local Clustering and Contrastive Affinity Learning

Author

Qu, Sanqing, Zou, Tianpei, Röhrbein, Florian, Lu, Cewu, Chen, Guang, Tao, Dacheng, and Jiang, Changjun

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

Deep neural networks often exhibit sub-optimal performance under covariate and category shifts. Source-Free Domain Adaptation (SFDA) presents a promising solution to this dilemma, yet most SFDA approaches are restricted to closed-set scenarios. In this paper, we explore Source-Free Universal Domain Adaptation (SF-UniDA) aiming to accurately classify "known" data belonging to common categories and segregate them from target-private "unknown" data. We propose a novel Global and Local Clustering (GLC) technique, which comprises an adaptive one-vs-all global clustering algorithm to discern between target classes, complemented by a local k-NN clustering strategy to mitigate negative transfer. Despite the effectiveness, the inherent closed-set source architecture leads to uniform treatment of "unknown" data, impeding the identification of distinct "unknown" categories. To address this, we evolve GLC to GLC++, integrating a contrastive affinity learning strategy. We examine the superiority of GLC and GLC++ across multiple benchmarks and category shift scenarios. Remarkably, in the most challenging open-partial-set scenarios, GLC and GLC++ surpass GATE by 16.7% and 18.6% in H-score on VisDA, respectively. GLC++ enhances the novel category clustering accuracy of GLC by 4.3% in open-set scenarios on Office-Home. Furthermore, the introduced contrastive learning strategy not only enhances GLC but also significantly facilitates existing methodologies., Comment: This is a substantial extension of the CVPR 2023 paper "Upcycling Models under Domain and Category Shift"

Published
2024

3. LEAD: Learning Decomposition for Source-free Universal Domain Adaptation

Author

Qu, Sanqing, Zou, Tianpei, He, Lianghua, Röhrbein, Florian, Knoll, Alois, Chen, Guang, and Jiang, Changjun

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

Universal Domain Adaptation (UniDA) targets knowledge transfer in the presence of both covariate and label shifts. Recently, Source-free Universal Domain Adaptation (SF-UniDA) has emerged to achieve UniDA without access to source data, which tends to be more practical due to data protection policies. The main challenge lies in determining whether covariate-shifted samples belong to target-private unknown categories. Existing methods tackle this either through hand-crafted thresholding or by developing time-consuming iterative clustering strategies. In this paper, we propose a new idea of LEArning Decomposition (LEAD), which decouples features into source-known and -unknown components to identify target-private data. Technically, LEAD initially leverages the orthogonal decomposition analysis for feature decomposition. Then, LEAD builds instance-level decision boundaries to adaptively identify target-private data. Extensive experiments across various UniDA scenarios have demonstrated the effectiveness and superiority of LEAD. Notably, in the OPDA scenario on VisDA dataset, LEAD outperforms GLC by 3.5% overall H-score and reduces 75% time to derive pseudo-labeling decision boundaries. Besides, LEAD is also appealing in that it is complementary to most existing methods. The code is available at https://github.com/ispc-lab/LEAD., Comment: To appear in CVPR 2024

Published
2024

4. PCDepth: Pattern-based Complementary Learning for Monocular Depth Estimation by Best of Both Worlds

Author

Liu, Haotian, Qu, Sanqing, Lu, Fan, Bu, Zongtao, Roehrbein, Florian, Knoll, Alois, and Chen, Guang

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Event cameras can record scene dynamics with high temporal resolution, providing rich scene details for monocular depth estimation (MDE) even at low-level illumination. Therefore, existing complementary learning approaches for MDE fuse intensity information from images and scene details from event data for better scene understanding. However, most methods directly fuse two modalities at pixel level, ignoring that the attractive complementarity mainly impacts high-level patterns that only occupy a few pixels. For example, event data is likely to complement contours of scene objects. In this paper, we discretize the scene into a set of high-level patterns to explore the complementarity and propose a Pattern-based Complementary learning architecture for monocular Depth estimation (PCDepth). Concretely, PCDepth comprises two primary components: a complementary visual representation learning module for discretizing the scene into high-level patterns and integrating complementary patterns across modalities and a refined depth estimator aimed at scene reconstruction and depth prediction while maintaining an efficiency-accuracy balance. Through pattern-based complementary learning, PCDepth fully exploits two modalities and achieves more accurate predictions than existing methods, especially in challenging nighttime scenarios. Extensive experiments on MVSEC and DSEC datasets verify the effectiveness and superiority of our PCDepth. Remarkably, compared with state-of-the-art, PCDepth achieves a 37.9% improvement in accuracy in MVSEC nighttime scenarios., Comment: Under Review

Published
2024

5. Upcycling Models under Domain and Category Shift

Author

Qu, Sanqing, Zou, Tianpei, Roehrbein, Florian, Lu, Cewu, Chen, Guang, Tao, Dacheng, and Jiang, Changjun

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

Deep neural networks (DNNs) often perform poorly in the presence of domain shift and category shift. How to upcycle DNNs and adapt them to the target task remains an important open problem. Unsupervised Domain Adaptation (UDA), especially recently proposed Source-free Domain Adaptation (SFDA), has become a promising technology to address this issue. Nevertheless, existing SFDA methods require that the source domain and target domain share the same label space, consequently being only applicable to the vanilla closed-set setting. In this paper, we take one step further and explore the Source-free Universal Domain Adaptation (SF-UniDA). The goal is to identify "known" data samples under both domain and category shift, and reject those "unknown" data samples (not present in source classes), with only the knowledge from standard pre-trained source model. To this end, we introduce an innovative global and local clustering learning technique (GLC). Specifically, we design a novel, adaptive one-vs-all global clustering algorithm to achieve the distinction across different target classes and introduce a local k-NN clustering strategy to alleviate negative transfer. We examine the superiority of our GLC on multiple benchmarks with different category shift scenarios, including partial-set, open-set, and open-partial-set DA. Remarkably, in the most challenging open-partial-set DA scenario, GLC outperforms UMAD by 14.8\% on the VisDA benchmark. The code is available at https://github.com/ispc-lab/GLC., Comment: To appear in CVPR 2023. The code has been made public

Published
2023

6. Task-Independent Spiking Central Pattern Generator: A Learning-Based Approach

Author

Aljalbout, Elie, Walter, Florian, Röhrbein, Florian, and Knoll, Alois

Subjects
Computer Science - Neural and Evolutionary Computing, Computer Science - Machine Learning, Computer Science - Robotics, Statistics - Machine Learning
Abstract

Legged locomotion is a challenging task in the field of robotics but a rather simple one in nature. This motivates the use of biological methodologies as solutions to this problem. Central pattern generators are neural networks that are thought to be responsible for locomotion in humans and some animal species. As for robotics, many attempts were made to reproduce such systems and use them for a similar goal. One interesting design model is based on spiking neural networks. This model is the main focus of this work, as its contribution is not limited to engineering but also applicable to neuroscience. This paper introduces a new general framework for building central pattern generators that are task-independent, biologically plausible, and rely on learning methods. The abilities and properties of the presented approach are not only evaluated in simulation but also in a robotic experiment. The results are very promising as the used robot was able to perform stable walking at different speeds and to change speed within the same gait cycle., Comment: Neural Processing Letters

Published
2020
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7. Scalability in Neural Control of Musculoskeletal Robots

Author

Richter, Christoph, Jentzsch, Sören, Hostettler, Rafael, Garrido, Jesús A., Ros, Eduardo, Knoll, Alois C., Röhrbein, Florian, van der Smagt, Patrick, and Conradt, Jörg

Subjects
Computer Science - Robotics, Computer Science - Distributed, Parallel, and Cluster Computing, Computer Science - Neural and Evolutionary Computing, Computer Science - Systems and Control
Abstract

Anthropomimetic robots are robots that sense, behave, interact and feel like humans. By this definition, anthropomimetic robots require human-like physical hardware and actuation, but also brain-like control and sensing. The most self-evident realization to meet those requirements would be a human-like musculoskeletal robot with a brain-like neural controller. While both musculoskeletal robotic hardware and neural control software have existed for decades, a scalable approach that could be used to build and control an anthropomimetic human-scale robot has not been demonstrated yet. Combining Myorobotics, a framework for musculoskeletal robot development, with SpiNNaker, a neuromorphic computing platform, we present the proof-of-principle of a system that can scale to dozens of neurally-controlled, physically compliant joints. At its core, it implements a closed-loop cerebellar model which provides real-time low-level neural control at minimal power consumption and maximal extensibility: higher-order (e.g., cortical) neural networks and neuromorphic sensors like silicon-retinae or -cochleae can naturally be incorporated., Comment: Accepted at IEEE Robotics and Automation Magazine on 2015-12-31

Published
2016
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8. The Neurorobotics Platform of the Human Brain Project

Author

Roehrbein, Florian, Gewaltig, Marc-Oliver, Laschi, Cecilia, Klinker, Gudrun, Levi, Paul, and Knoll, Alois

Abstract

The aim of the neurorobotics platform of the Human Brain Project (HBP) is to offer scientists from various fieldsa software and hardware infrastructure that allows them to connect brain models to detailed simulations of robot bodies andenvironments. In the ramp-up phase of the HBP a first version of this platform has been developed, which allows researchersto design and run simple experiments in cognitive neuroscience using simulated robots and simulated environments linkedto simplified versions of HBP brain models. The developed tools, i.e., various designers, simulation engines and simulationviewers, allow researchers to operate robots remotely, to repeat in-silico experiments and to visualize the behavior of the robotsin real-time. Together with five other ICT platforms developed in the HBP, these technologies will also enable the developmentof brain-inspired computing systems. The first version of this platform has been released March 2016 and is described in thiscontribution.

Published
2016

9. Online Multi-object Tracking-by-Clustering for Intelligent Transportation System with Neuromorphic Vision Sensor

Author

Hinz, Gereon, Chen, Guang, Aafaque, Muhammad, Röhrbein, Florian, Conradt, Jörg, Bing, Zhenshan, Qu, Zhongnan, Stechele, Walter, Knoll, Alois, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Weikum, Gerhard, Series editor, Kern-Isberner, Gabriele, editor, Fürnkranz, Johannes, editor, and Thimm, Matthias, editor

Published
2017
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10. Spiking Cooperative Stereo-Matching at 2 ms Latency with Neuromorphic Hardware

Author

Dikov, Georgi, Firouzi, Mohsen, Röhrbein, Florian, Conradt, Jörg, Richter, Christoph, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Weikum, Gerhard, Series editor, Mangan, Michael, editor, Cutkosky, Mark, editor, Mura, Anna, editor, Verschure, Paul F.M.J., editor, Prescott, Tony, editor, and Lepora, Nathan, editor

Published
2017
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12. The ECHORD Project: A General Perspective

Author

Griffiths, Sascha, Natale, Ciro, Araújo, Ricardo, Veiga, Germano, Chiacchio, Pasquale, Röhrbein, Florian, Chiaverini, Stefano, Lafrenz, Reinhard, Siciliano, Bruno, Series editor, Khatib, Oussama, Series editor, Röhrbein, Florian, editor, Veiga, Germano, editor, and Natale, Ciro, editor

Published
2014
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14. Attention Modulation Using Short- and Long-Term Knowledge

Author

Rebhan, Sven, Röhrbein, Florian, Eggert, Julian, Körner, Edgar, Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Doug, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Gasteratos, Antonios, editor, Vincze, Markus, editor, and Tsotsos, John K., editor

Published
2008
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15. Motion Shapes: Empirical Studies and Neural Modeling

Author

Röhrbein, Florian, Schill, Kerstin, Baier, Volker, Stein, Klaus, Zetzsche, Christoph, Brauer, Wilfried, Carbonell, Jaime G., editor, Siekmann, Jörg, editor, Freksa, Christian, editor, Brauer, Wilfried, editor, Habel, Christopher, editor, and Wender, Karl F., editor

Published
2003
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16. Visual Processing and Representation of Spatio-temporal Patterns

Author

Eisenkolb, Andreas, Schill, Kerstin, Röhrbein, Florian, Baier, Volker, Musto, Alexandra, Brauer, Wilfried, Goos, G., editor, Hartmanis, J., editor, van Leeuwen, J., editor, Carbonell, Jaime G., editor, Siekmann, Jörg, editor, Freksa, Christian, editor, Habel, Christopher, editor, Brauer, Wilfried, editor, and Wender, Karl F., editor

Published
2000
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18. FLGR : Fixed Length Gists Representation Learning for RNN-HMM Hybrid-Based Neuromorphic Continuous Gesture Recognition

Author

Chen, Guang, Chen, Jieneng, Lienen, Marten, Conradt, Jörg, Roehrbein, Florian, Knoll, Alois C., Chen, Guang, Chen, Jieneng, Lienen, Marten, Conradt, Jörg, Roehrbein, Florian, and Knoll, Alois C.

Abstract

A neuromorphic vision sensors is a novel passive sensing modality and frameless sensors with several advantages over conventional cameras. Frame-based cameras have an average frame-rate of 30 fps, causing motion blur when capturing fast motion, e.g., hand gesture. Rather than wastefully sending entire images at a fixed frame rate, neuromorphic vision sensors only transmit the local pixel-level changes induced by the movement in a scene when they occur. This leads to advantageous characteristics, including low energy consumption, high dynamic range, a sparse event stream and low response latency. In this study, a novel representation learning method was proposed: Fixed Length Gists Representation (FLGR) learning for event-based gesture recognition. Previous methods accumulate events into video frames in a time duration (e.g., 30 ms) to make the accumulated image-level representation. However, the accumulated-frame-based representation waives the friendly event-driven paradigm of neuromorphic vision sensor. New representation are urgently needed to fill the gap in non-accumulated-frame-based representation and exploit the further capabilities of neuromorphic vision. The proposed FLGR is a sequence learned from mixture density autoencoder and preserves the nature of event-based data better. FLGR has a data format of fixed length, and it is easy to feed to sequence classifier. Moreover, an RNN-HMM hybrid was proposed to address the continuous gesture recognition problem. Recurrent neural network (RNN) was applied for FLGR sequence classification while hidden Markov model (HMM) is employed for localizing the candidate gesture and improving the result in a continuous sequence. A neuromorphic continuous hand gestures dataset (Neuro ConGD Dataset) was developed with 17 hand gestures classes for the community of the neuromorphic research. Hopefully, FLGR can inspire the study on the event-based highly efficient, high-speed, and high-dynamic-range sequence classification task, QC 20190313

Published
2019
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19. Multi-Cue Event Information Fusion for Pedestrian Detection With Neuromorphic Vision Sensors

Author

Chen, Guang, Cao, Hu, Ye, Canbo, Zhang, Zhenyan, Liu, Xingbo, Mo, Xuhui, Qu, Zhongnan, Conradt, Jörg, Roehrbein, Florian, Knoll, Alois, Chen, Guang, Cao, Hu, Ye, Canbo, Zhang, Zhenyan, Liu, Xingbo, Mo, Xuhui, Qu, Zhongnan, Conradt, Jörg, Roehrbein, Florian, and Knoll, Alois

Abstract

Neuromorphic vision sensors are bio-inspired cameras that naturally capture the dynamics of a scene with ultra-low latency, filtering out redundant information with low power consumption. Few works are addressing the object detection with this sensor. In this work, we propose to develop pedestrian detectors that unlock the potential of the event data by leveraging multi-cue information and different fusion strategies. To make the best out of the event data, we introduce three different event-stream encoding methods based on Frequency, Surface of Active Event (SAE) and Leaky Integrate-and-Fire (LIF). We further integrate them into the state-of-the-art neural network architectures with two fusion approaches: the channel-level fusion of the raw feature space and decision-level fusion with the probability assignments. We present a qualitative and quantitative explanation why different encoding methods are chosen to evaluate the pedestrian detection and which method performs the best. We demonstrate the advantages of the decision-level fusion via leveraging multi-cue event information and show that our approach performs well on a self-annotated event-based pedestrian dataset with 8,736 event frames. This work paves the way of more fascinating perception applications with neuromorphic vision sensors., QC 20190724

Published
2019
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20. Neuromorphic Vision Based Multivehicle Detection and Tracking for Intelligent Transportation System

Author

Chen, Guang, Cao, Hu, Aafaque, Muhammad, Chen, Jieneng, Ye, Canbo, Roehrbein, Florian, Conradt, Jörg, Chen, Kai, Bing, Zhenshan, Liu, Xingbo, Hinz, Gereon, Stechele, Walter, Knoll, Alois, Chen, Guang, Cao, Hu, Aafaque, Muhammad, Chen, Jieneng, Ye, Canbo, Roehrbein, Florian, Conradt, Jörg, Chen, Kai, Bing, Zhenshan, Liu, Xingbo, Hinz, Gereon, Stechele, Walter, and Knoll, Alois

Abstract

Neuromorphic vision sensor is a new passive sensing modality and a frameless sensor with a number of advantages over traditional cameras. Instead of wastefully sending entire images at fixed frame rate, neuromorphic vision sensor only transmits the local pixel-level changes caused by the movement in a scene at the time they occur. This results in advantageous characteristics, in terms of low energy consumption, high dynamic range, sparse event stream, and low response latency, which can be very useful in intelligent perception systems for modern intelligent transportation system (ITS) that requires efficient wireless data communication and low power embedded computing resources. In this paper, we propose the first neuromorphic vision based multivehicle detection and tracking system in ITS. The performance of the system is evaluated with a dataset recorded by a neuromorphic vision sensor mounted on a highway bridge. We performed a preliminary multivehicle tracking-by-clustering study using three classical clustering approaches and four tracking approaches. Our experiment results indicate that, by making full use of the low latency and sparse event stream, we could easily integrate an online tracking-by-clustering system running at a high frame rate, which far exceeds the real-time capabilities of traditional frame-based cameras. If the accuracy is prioritized, the tracking task can also be performed robustly at a relatively high rate with different combinations of algorithms. We also provide our dataset and evaluation approaches serving as the first neuromorphic benchmark in ITS and hopefully can motivate further research on neuromorphic vision sensors for ITS solutions., QC 20190103

Published
2018
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23. GRASPY – Object Manipulation with NAO

Author

Müller, Judith, Frese, Udo, Röfer, Thomas, Gelin, Rodolphe, Mazel, Alexandre, Siciliano, Bruno, Series editor, Khatib, Oussama, Series editor, Röhrbein, Florian, editor, Veiga, Germano, editor, and Natale, Ciro, editor

Published
2014
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