1,409 research outputs found
Non-iterative RGB-D-inertial Odometry
This paper presents a non-iterative solution to RGB-D-inertial odometry
system. Traditional odometry methods resort to iterative algorithms which are
usually computationally expensive or require well-designed initialization. To
overcome this problem, this paper proposes to combine a non-iterative front-end
(odometry) with an iterative back-end (loop closure) for the RGB-D-inertial
SLAM system. The main contribution lies in the novel non-iterative front-end,
which leverages on inertial fusion and kernel cross-correlators (KCC) to match
point clouds in frequency domain. Dominated by the fast Fourier transform
(FFT), our method is only of complexity , where is
the number of points. Map fusion is conducted by element-wise operations, so
that both time and space complexity are further reduced. Extensive experiments
show that, due to the lightweight of the proposed front-end, the framework is
able to run at a much faster speed yet still with comparable accuracy with the
state-of-the-arts
LookUP: Vision-Only Real-Time Precise Underground Localisation for Autonomous Mining Vehicles
A key capability for autonomous underground mining vehicles is real-time
accurate localisation. While significant progress has been made, currently
deployed systems have several limitations ranging from dependence on costly
additional infrastructure to failure of both visual and range sensor-based
techniques in highly aliased or visually challenging environments. In our
previous work, we presented a lightweight coarse vision-based localisation
system that could map and then localise to within a few metres in an
underground mining environment. However, this level of precision is
insufficient for providing a cheaper, more reliable vision-based automation
alternative to current range sensor-based systems. Here we present a new
precision localisation system dubbed "LookUP", which learns a
neural-network-based pixel sampling strategy for estimating homographies based
on ceiling-facing cameras without requiring any manual labelling. This new
system runs in real time on limited computation resource and is demonstrated on
two different underground mine sites, achieving real time performance at ~5
frames per second and a much improved average localisation error of ~1.2 metre.Comment: 7 pages, 7 figures, accepted for IEEE ICRA 201
Vision-based localization methods under GPS-denied conditions
This paper reviews vision-based localization methods in GPS-denied
environments and classifies the mainstream methods into Relative Vision
Localization (RVL) and Absolute Vision Localization (AVL). For RVL, we discuss
the broad application of optical flow in feature extraction-based Visual
Odometry (VO) solutions and introduce advanced optical flow estimation methods.
For AVL, we review recent advances in Visual Simultaneous Localization and
Mapping (VSLAM) techniques, from optimization-based methods to Extended Kalman
Filter (EKF) based methods. We also introduce the application of offline map
registration and lane vision detection schemes to achieve Absolute Visual
Localization. This paper compares the performance and applications of
mainstream methods for visual localization and provides suggestions for future
studies.Comment: 32 pages, 15 figure
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