Institution
Institute of Robotics and Intelligent Systems
About: Institute of Robotics and Intelligent Systems is a based out in . It is known for research contribution in the topics: Robot & Mobile robot. The organization has 560 authors who have published 872 publications receiving 37702 citations.
Papers published on a yearly basis
Papers
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06 Nov 2011TL;DR: A comprehensive evaluation on benchmark datasets reveals BRISK's adaptive, high quality performance as in state-of-the-art algorithms, albeit at a dramatically lower computational cost (an order of magnitude faster than SURF in cases).
Abstract: Effective and efficient generation of keypoints from an image is a well-studied problem in the literature and forms the basis of numerous Computer Vision applications. Established leaders in the field are the SIFT and SURF algorithms which exhibit great performance under a variety of image transformations, with SURF in particular considered as the most computationally efficient amongst the high-performance methods to date. In this paper we propose BRISK1, a novel method for keypoint detection, description and matching. A comprehensive evaluation on benchmark datasets reveals BRISK's adaptive, high quality performance as in state-of-the-art algorithms, albeit at a dramatically lower computational cost (an order of magnitude faster than SURF in cases). The key to speed lies in the application of a novel scale-space FAST-based detector in combination with the assembly of a bit-string descriptor from intensity comparisons retrieved by dedicated sampling of each keypoint neighborhood.
3,292 citations
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28 Sep 2004TL;DR: The results of two model-based control techniques applied to an autonomous four-rotor micro helicopter called quadrotor are presented, a classical approach (PID) assumed a simplified dynamics and a modern technique based on a more complete model.
Abstract: The development of miniature flying robots has become a reachable dream, thanks to the new sensing and actuating technologies. Micro VTOL systems represent a useful class of flying robots because of their strong abilities for small-area monitoring and building exploration. In this paper, we present the results of two model-based control techniques applied to an autonomous four-rotor micro helicopter called quadrotor. A classical approach (PID) assumed a simplified dynamics and a modern technique (LQ) based on a more complete model. Various simulations were performed and several tests on the bench validate the control laws. Finally, we present the results of the first test in flight with the helicopter released. These developments are part of the OS4 project in our lab.
1,264 citations
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07 Jun 2004TL;DR: The approach that the lab has taken to micro VTOL evolving towards full autonomy is described, and the mechanical design, dynamic modelling, sensing, and control of the indoor VTOL autonomous robot OS4 are presented.
Abstract: Progresses in sensor technology, data processing and integrated actuators has made the development of miniature flying robots fully possible. Micro VTOL systems represent a useful class of flying robots because of their strong capabilities for small-area monitoring and building exploration. In this paper we describe the approach that our lab has taken to micro VTOL evolving towards full autonomy, and present the mechanical design, dynamic modelling, sensing, and control of our indoor VTOL autonomous robot OS4.
831 citations
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01 Sep 2015TL;DR: A monocular visual-inertial odometry algorithm which achieves accurate tracking performance while exhibiting a very high level of robustness by directly using pixel intensity errors of image patches, leading to a truly power-up-and-go state estimation system.
Abstract: In this paper, we present a monocular visual-inertial odometry algorithm which, by directly using pixel intensity errors of image patches, achieves accurate tracking performance while exhibiting a very high level of robustness. After detection, the tracking of the multilevel patch features is closely coupled to the underlying extended Kalman filter (EKF) by directly using the intensity errors as innovation term during the update step. We follow a purely robocentric approach where the location of 3D landmarks are always estimated with respect to the current camera pose. Furthermore, we decompose landmark positions into a bearing vector and a distance parametrization whereby we employ a minimal representation of differences on a corresponding σ-Algebra in order to achieve better consistency and to improve the computational performance. Due to the robocentric, inverse-distance landmark parametrization, the framework does not require any initialization procedure, leading to a truly power-up-and-go state estimation system. The presented approach is successfully evaluated in a set of highly dynamic hand-held experiments as well as directly employed in the control loop of a multirotor unmanned aerial vehicle (UAV).
665 citations
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01 Nov 2013TL;DR: A novel framework for jointly estimating the temporal offset between measurements of different sensors and their spatial displacements with respect to each other is presented, enabled by continuous-time batch estimation and extends previous work by seamlessly incorporating time offsets within the rigorous theoretical framework of maximum likelihood estimation.
Abstract: In order to increase accuracy and robustness in state estimation for robotics, a growing number of applications rely on data from multiple complementary sensors. For the best performance in sensor fusion, these different sensors must be spatially and temporally registered with respect to each other. To this end, a number of approaches have been developed to estimate these system parameters in a two stage process, first estimating the time offset and subsequently solving for the spatial transformation between sensors. In this work, we present on a novel framework for jointly estimating the temporal offset between measurements of different sensors and their spatial displacements with respect to each other. The approach is enabled by continuous-time batch estimation and extends previous work by seamlessly incorporating time offsets within the rigorous theoretical framework of maximum likelihood estimation. Experimental results for a camera to inertial measurement unit (IMU) calibration prove the ability of this framework to accurately estimate time offsets up to a fraction of the smallest measurement period.
626 citations
Authors
Showing all 560 results
Name | H-index | Papers | Citations |
---|---|---|---|
Wolfram Burgard | 111 | 728 | 64856 |
Roland Siegwart | 105 | 1154 | 51473 |
Sebastien Ourselin | 91 | 1116 | 34683 |
Jan Peters | 81 | 669 | 29940 |
Davide Scaramuzza | 76 | 325 | 25928 |
Dario Floreano | 73 | 454 | 23181 |
Peter Corke | 72 | 543 | 25582 |
Ying Guo | 71 | 372 | 20321 |
Ming Liu | 53 | 440 | 9795 |
Huosheng Hu | 50 | 522 | 11976 |
Marco Pavone | 49 | 378 | 8487 |
Francesco Mondada | 47 | 235 | 10355 |
Daniel Roggen | 46 | 200 | 8710 |
Juan Nieto | 45 | 272 | 6937 |
Nilanjan Sarkar | 44 | 262 | 7131 |