Robust embedded egomotion estimation

Voigt, Rainer; Nikolic, Janosch; Hürzeler, Christoph; Weiß, Stephan; Kneip, Laurent; Siegwart, Roland

doi:10.1109/iros.2011.6095122

Cited by 27 publications

(5 citation statements)

References 9 publications

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“…Fusion of visual and inertial cues is, strictly speaking, implemented in a loosely coupled fashion following the stochastic cloning approach outlined in [18]. Only an overview of the processing pipeline is provided here, and the interested reader is referred to [19] for further details.…”

Section: Vision-aided Inertial Navigation Systemmentioning

confidence: 99%

“…We applied a loosely-coupled approach for visual-inertial state estimation [19] running on-board the aerial vehicle: this algorithm serves as the basis for the model-predictive controller described above. As a complementary method, we also experimented with tight integration of inertial sensing and visual odometry.…”

Section: Tightly Coupled Visual-inertial Odometrymentioning

confidence: 99%

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A UAV system for inspection of industrial facilities

Nikolic

Burri

Rehder

et al. 2013

2013 IEEE Aerospace Conference

206

106

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Abstract-This work presents a small-scale Unmanned Aerial System (UAS) capable of performing inspection tasks in enclosed industrial environments. Vehicles with such capabilities have the potential to reduce human involvement in hazardous tasks and can minimize facility outage periods. The results presented generalize to UAS exploration tasks in almost any GPS-denied indoor environment. The contribution of this work is twofold. First, results from autonomous flights inside an industrial boiler of a coal-fired thermal power plant are presented. A lightweight, vision-aided inertial navigation system provides reliable state estimates under difficult environmental conditions typical of such sites. It relies solely on measurements from an onboard MEMS inertial measurement unit and a pair of cameras arranged in a classical stereo configuration. A model-predictive controller allows for efficient trajectory following and enables flight in close proximity with the boiler surface. As a second contribution, we highlight ongoing developments by displaying state estimation and structure recovery results acquired with an integrated visual-inertial sensor that will be employed on future aerial service robotic platforms. A tight integration in hardware facilitates spatial and temporal calibration of the different sensors and thus enables more accurate and robust ego-motion estimates. Comparison with ground truth obtained from a laser tracker shows that such a sensor can provide motion estimates with drift rates of a only few cm over the period of a typical flight.

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Section: Vision-aided Inertial Navigation Systemmentioning

confidence: 99%

Section: Tightly Coupled Visual-inertial Odometrymentioning

confidence: 99%

A UAV system for inspection of industrial facilities

Nikolic

Burri

Rehder

et al. 2013

2013 IEEE Aerospace Conference

206

106

View full text Add to dashboard Cite

show abstract

“…The EKF sensor fusion filter combines relative motion estimates from the stereo visual odometry with IMU measurements, and periodically incorporates position corrections from a SLAM module to bound the drift. More recently, Voigt et al [16] proposed an EKF-based visual-inertial ego-motion estimation method that combines stereo vision and IMU measurements in a tightly coupled manner. The resulting scheme utilizes IMU state and covariance propagation information to aid the feature matching of the stereo vision, leading to increased efficiency and robustness of MAV state estimation in complex industrial environments.…”

Section: Related Workmentioning

confidence: 99%

“…The centroids ( , p q ) of two point clouds are computed first, and the relative distances (∆pi, ∆qi) are then calculated according to Equation (16). Given ∆pi, ∆qi, the algorithm computes the following matrix:…”

Section: Robust Inlier Detection and Relative Motion Estimationmentioning

confidence: 99%

“…Moreover, they are unable to fully utilize the information in a 3D environment. In addition, both monocular [11][12][13] and stereo vision [14][15][16] technologies based on onboard cameras have also been employed to provide relative estimates for indoor navigation of MAVs. Although appealing in many applications, the monocular and stereo vision based approaches have several drawbacks in addressing indoor MAV navigation problems: Conventional RGB cameras do not directly provide distance information of environments, thus monocular/stereo vision based approaches must calculate the depth data using image features, which is a computationally intensive process.…”

Section: Introductionmentioning

confidence: 99%

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Invariant Observer-Based State Estimation for Micro-Aerial Vehicles in GPS-Denied Indoor Environments Using an RGB-D Camera and MEMS Inertial Sensors

Tang³

et al. 2015

Micromachines

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This paper presents a non-linear state observer-based integrated navigation scheme for estimating the attitude, position and velocity of micro aerial vehicles (MAV) operating in GPS-denied indoor environments, using the measurements from low-cost MEMS (micro electro-mechanical systems) inertial sensors and an RGB-D camera. A robust RGB-D visual odometry (VO) approach was developed to estimate the MAV's relative motion by extracting and matching features captured by the RGB-D camera from the environment. The state observer of the RGB-D visual-aided inertial navigation was then designed based on the invariant observer theory for systems possessing symmetries. The motion estimates from the RGB-D VO were fused with inertial and magnetic measurements from the onboard MEMS sensors via the state observer, providing the MAV with accurate estimates of its full six degree-of-freedom states. Implementations on a quadrotor MAV and indoor flight test results demonstrate that the resulting state observer is effective in estimating the MAV's states without relying on external navigation aids such as GPS. The properties of computational efficiency and simplicity in gain tuning make the proposed invariant observer-based navigation scheme appealing for actual MAV applications in indoor environments. OPEN ACCESSMicromachines 2015, 6 488

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Outdoor Flight Testing of a Pole Inspection UAV Incorporating High-speed Vision

Hrabar

Corke

2015

Springer Tracts in Advanced Robotics

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Robust embedded egomotion estimation

Cited by 27 publications

References 9 publications

A UAV system for inspection of industrial facilities

A UAV system for inspection of industrial facilities

Invariant Observer-Based State Estimation for Micro-Aerial Vehicles in GPS-Denied Indoor Environments Using an RGB-D Camera and MEMS Inertial Sensors

Outdoor Flight Testing of a Pole Inspection UAV Incorporating High-speed Vision

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