Your search keyword '"trajectory estimation"' showing total 3 results

1. An Image-Based Real-Time Georeferencing Scheme for a UAV Based on a New Angular Parametrization

Author

Ehsan Khoramshahi, Raquel A. Oliveira, Niko Koivumäki, and Eija Honkavaara

Subjects

photogrammetry, real-time monocular SLAM, UAV, trajectory estimation, GNSS, IMU, Science

Abstract

Simultaneous localization and mapping (SLAM) of a monocular projective camera installed on an unmanned aerial vehicle (UAV) is a challenging task in photogrammetry, computer vision, and robotics. This paper presents a novel real-time monocular SLAM solution for UAV applications. It is based on two steps: consecutive construction of the UAV path, and adjacent strip connection. Consecutive construction rapidly estimates the UAV path by sequentially connecting incoming images to a network of connected images. A multilevel pyramid matching is proposed for this step that contains a sub-window matching using high-resolution images. The sub-window matching increases the frequency of tie points by propagating locations of matched sub-windows that leads to a list of high-frequency tie points while keeping the execution time relatively low. A sparse bundle block adjustment (BBA) is employed to optimize the initial path by considering nuisance parameters. System calibration parameters with respect to global navigation satellite system (GNSS) and inertial navigation system (INS) are optionally considered in the BBA model for direct georeferencing. Ground control points and checkpoints are optionally included in the model for georeferencing and quality control. Adjacent strip connection is enabled by an overlap analysis to further improve connectivity of local networks. A novel angular parametrization based on spherical rotation coordinate system is presented to address the gimbal lock singularity of BBA. Our results suggest that the proposed scheme is a precise real-time monocular SLAM solution for a UAV.

Published

2020

2. An Image-Based Real-Time Georeferencing Scheme for a UAV Based on a New Angular Parametrization

Author

Raquel Alves de Oliveira, Ehsan Khoramshahi, Eija Honkavaara, Niko Koivumäki, Helsinki Institute of Sustainability Science (HELSUS), and Department of Computer Science

Subjects

1171 Geosciences, 010504 meteorology & atmospheric sciences, Computer science, Science, UAV, 0211 other engineering and technologies, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, 02 engineering and technology, Simultaneous localization and mapping, photogrammetry, 01 natural sciences, Inertial measurement unit, Gimbal lock, real-time monocular SLAM, Computer vision, Pyramid (image processing), Inertial navigation system, 021101 geological & geomatics engineering, 0105 earth and related environmental sciences, GNSS, business.industry, 113 Computer and information sciences, FOREST, IMU, direct georeferencing, Photogrammetry, GNSS applications, SLAM, General Earth and Planetary Sciences, trajectory estimation, Artificial intelligence, business, Rotation (mathematics), SYSTEM

Abstract

Simultaneous localization and mapping (SLAM) of a monocular projective camera installed on an unmanned aerial vehicle (UAV) is a challenging task in photogrammetry, computer vision, and robotics. This paper presents a novel real-time monocular SLAM solution for UAV applications. It is based on two steps: consecutive construction of the UAV path, and adjacent strip connection. Consecutive construction rapidly estimates the UAV path by sequentially connecting incoming images to a network of connected images. A multilevel pyramid matching is proposed for this step that contains a sub-window matching using high-resolution images. The sub-window matching increases the frequency of tie points by propagating locations of matched sub-windows that leads to a list of high-frequency tie points while keeping the execution time relatively low. A sparse bundle block adjustment (BBA) is employed to optimize the initial path by considering nuisance parameters. System calibration parameters with respect to global navigation satellite system (GNSS) and inertial navigation system (INS) are optionally considered in the BBA model for direct georeferencing. Ground control points and checkpoints are optionally included in the model for georeferencing and quality control. Adjacent strip connection is enabled by an overlap analysis to further improve connectivity of local networks. A novel angular parametrization based on spherical rotation coordinate system is presented to address the gimbal lock singularity of BBA. Our results suggest that the proposed scheme is a precise real-time monocular SLAM solution for a UAV.

Published

2020

3. An Image-Based Real-Time Georeferencing Scheme for a UAV Based on a New Angular Parametrization.

Author

Khoramshahi, Ehsan, Oliveira, Raquel A., Koivumäki, Niko, and Honkavaara, Eija

Subjects

*GLOBAL Positioning System, *INERTIAL navigation systems, *SPHERICAL coordinates, *COMPUTER vision

Abstract

Simultaneous localization and mapping (SLAM) of a monocular projective camera installed on an unmanned aerial vehicle (UAV) is a challenging task in photogrammetry, computer vision, and robotics. This paper presents a novel real-time monocular SLAM solution for UAV applications. It is based on two steps: consecutive construction of the UAV path, and adjacent strip connection. Consecutive construction rapidly estimates the UAV path by sequentially connecting incoming images to a network of connected images. A multilevel pyramid matching is proposed for this step that contains a sub-window matching using high-resolution images. The sub-window matching increases the frequency of tie points by propagating locations of matched sub-windows that leads to a list of high-frequency tie points while keeping the execution time relatively low. A sparse bundle block adjustment (BBA) is employed to optimize the initial path by considering nuisance parameters. System calibration parameters with respect to global navigation satellite system (GNSS) and inertial navigation system (INS) are optionally considered in the BBA model for direct georeferencing. Ground control points and checkpoints are optionally included in the model for georeferencing and quality control. Adjacent strip connection is enabled by an overlap analysis to further improve connectivity of local networks. A novel angular parametrization based on spherical rotation coordinate system is presented to address the gimbal lock singularity of BBA. Our results suggest that the proposed scheme is a precise real-time monocular SLAM solution for a UAV. [ABSTRACT FROM AUTHOR]

Published

2020