The Neptec Three-Dimensional Laser Camera System: From Space Mission STS-105 to Terrestrial Applications

Samson, C.; English, Chad; Deslauriers, A.; Christie, I.; Blais, François; Ferrie, Frank P.

doi:10.5589/q04-009

Cited by 43 publications

(17 citation statements)

References 7 publications

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“…Mah et al [14] acquired six images of the scene using the triangulation-based Laser Camera System (LCS) developed by Neptec Design Group of Ottawa, Ontario, Canada [16]. Each image is a point cloud acquired at a resolution of 1024 Â 1024 voxels from a distance of 3 m with a 301 Â 301 field of view, thereby covering a surface of 1.6 m 2 with a concentration of approximately 40 voxel/cm 2 .…”

Section: Geological Scenesmentioning

confidence: 99%

Visual enhancement of 3D images of rock faces for fracture mapping

Lai

Samson

Bose

2014

International Journal of Rock Mechanics and Mining Sciences

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Section: Geological Scenesmentioning

confidence: 99%

Visual enhancement of 3D images of rock faces for fracture mapping

Lai

Samson

Bose

2014

International Journal of Rock Mechanics and Mining Sciences

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“…In pose estimation of moving objects, "good" initial poses should be provided at the beginning of every ICP iteration. The initial guess for the pose can be taken from the previous estimated pose obtained from the ICP [14]. However, this can make the estimation process fragile when dealing with relatively fast moving target.…”

Section: Icp Algorithmmentioning

confidence: 99%

“…One can combine the nonlinear equations (14), (17), (19) in the standard form asẋ = f (x, ), which can be used for state propagation. However, the KF design also requires the statetransition matrix of the linearized system.…”

Section: B State Equationsmentioning

confidence: 99%

Robust vision-based pose estimation of moving objects for Automated Rendezvous & Docking

Aghili

Kuryllo

Okouneva

et al. 2010

2010 IEEE International Conference on Mechatronics and Automation

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This paper presents a fault-tolerant method for pose estimation of space objects using 3-D vision data by integration of a Kalman filter (KF) and an Iterative Closest Point (ICP) algorithm in a closed-loop configuration. The initial guess for the internal ICP iteration is provided by state estimate propagation of the Kalman filer. The Kalman filter is capable of not only estimating the target's states, but also its inertial parameters. This allows the motion of target to be predictable as soon as the filter converges. Consequently, the ICP can maintain pose tracking over a wider range of velocity due to increased precision of ICP initialization. Furthermore, incorporation of the target's dynamics model in the estimation process allows the estimator continuously provide pose estimation even when the sensor temporally loses its signal namely due to obstruction. The capabilities of the pose estimation methodology is demonstrated by a ground testbed for Automated Rendezvous & Docking (AR&D). In this experiment, Neptec's Laser Camera System (LCS) is used for real-time scanning of a satellite model attached to a manipulator arm, which is driven by a simulator according to orbital and attitude dynamics. The results showed that robust tracking of the free-floating tumbling satellite can be achieved only if the Kalman filter and ICP are in closed-loop configuration.

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“…Despite the fact that active sensors such as LIDAR are effective for rendezvous, even under harsh lighting conditions (see for example the Neptec's Laser Camera System-LCS [6]), their high weight and power consumption prevents their intensive use for future missions, as passive, low weight and low power cameras are now widely available. Moreover, advances in image processing algorithms and computing power further motivate their usage for localization in space.…”

Section: Previous Workmentioning

confidence: 99%

Vision-based localization for on-orbit servicing of a partially cooperative satellite

et al. 2015

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The Neptec Three-Dimensional Laser Camera System: From Space Mission STS-105 to Terrestrial Applications

Cited by 43 publications

References 7 publications

Visual enhancement of 3D images of rock faces for fracture mapping

Visual enhancement of 3D images of rock faces for fracture mapping

Robust vision-based pose estimation of moving objects for Automated Rendezvous & Docking

Vision-based localization for on-orbit servicing of a partially cooperative satellite

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The Neptec Three-Dimensional Laser Camera System: From Space Mission STS-105 to Terrestrial Applications

Cited by 43 publications

References 7 publications

Visual enhancement of 3D images of rock faces for fracture mapping

Visual enhancement of 3D images of rock faces for fracture mapping

Robust vision-based pose estimation of moving objects for Automated Rendezvous &amp; Docking

Vision-based localization for on-orbit servicing of a partially cooperative satellite

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Robust vision-based pose estimation of moving objects for Automated Rendezvous & Docking