Multi-layer VI-GNSS Global Positioning Framework with Numerical Solution aided MAP Initialization
Motivated by the goal of achieving long-term drift-free camera pose estimation in complex scenarios, we propose a global positioning framework fusing visual, inertial and Global Navigation Satellite System (GNSS) measurements in multiple layers. Different from previous loosely- and tightly- coupled...
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Main Authors | , , , |
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Format | Journal Article |
Language | English |
Published |
05.01.2022
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Subjects | |
Online Access | Get full text |
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Summary: | Motivated by the goal of achieving long-term drift-free camera pose
estimation in complex scenarios, we propose a global positioning framework
fusing visual, inertial and Global Navigation Satellite System (GNSS)
measurements in multiple layers. Different from previous loosely- and tightly-
coupled methods, the proposed multi-layer fusion allows us to delicately
correct the drift of visual odometry and keep reliable positioning while GNSS
degrades. In particular, local motion estimation is conducted in the
inner-layer, solving the problem of scale drift and inaccurate bias estimation
in visual odometry by fusing the velocity of GNSS, pre-integration of Inertial
Measurement Unit (IMU) and camera measurement in a tightly-coupled way. The
global localization is achieved in the outer-layer, where the local motion is
further fused with GNSS position and course in a long-term period in a
loosely-coupled way. Furthermore, a dedicated initialization method is proposed
to guarantee fast and accurate estimation for all state variables and
parameters. We give exhaustive tests of the proposed framework on indoor and
outdoor public datasets. The mean localization error is reduced up to 63%, with
a promotion of 69% in initialization accuracy compared with state-of-the-art
works. We have applied the algorithm to Augmented Reality (AR) navigation,
crowd sourcing high-precision map update and other large-scale applications. |
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DOI: | 10.48550/arxiv.2201.01561 |