806 research outputs found
Object Tracking and Mensuration in Surveillance Videos
This thesis focuses on tracking and mensuration in surveillance videos. The
first part of the thesis discusses several object tracking approaches based on the
different properties of tracking targets. For airborne videos, where the targets are
usually small and with low resolutions, an approach of building motion models for
foreground/background proposed in which the foreground target is simplified as a
rigid object. For relatively high resolution targets, the non-rigid models are applied.
An active contour-based algorithm has been introduced. The algorithm is based on
decomposing the tracking into three parts: estimate the affine transform parameters
between successive frames using particle filters; detect the contour deformation using
a probabilistic deformation map, and regulate the deformation by projecting the
updated model onto a trained shape subspace. The active appearance Markov chain
(AAMC). It integrates a statistical model of shape, appearance and motion. In the
AAMC model, a Markov chain represents the switching of motion phases (poses),
and several pairwise active appearance model (P-AAM) components characterize the
shape, appearance and motion information for different motion phases. The second
part of the thesis covers video mensuration, in which we have proposed a heightmeasuring
algorithm with less human supervision, more flexibility and improved
robustness. From videos acquired by an uncalibrated stationary camera, we first
recover the vanishing line and the vertical point of the scene. We then apply a single
view mensuration algorithm to each of the frames to obtain height measurements.
Finally, using the LMedS as the cost function and the Robbins-Monro stochastic
approximation (RMSA) technique to obtain the optimal estimate
Towards an Interactive Humanoid Companion with Visual Tracking Modalities
The idea of robots acting as human companions is not a particularly new or original one. Since the notion of ârobot â was created, the idea of robots replacing humans in dangerous, dirty and dull activities has been inseparably tied with the fantasy of human-like robots being friends and existing side by side with humans. In 1989, Engelberger (Engelberger
Particle filter in vision tracking
The extended Kalman filter (EKF) has been used as the standard technique for
performing recursive nonlinear estimation in vision tracking. In this report,
we present an alternative filter with performance superior to that of the EKF.
This algorithm, referred to as the Particle filter. Particle filtering was
originally developed to track objects in clutter (multi-modal distribution).
We present as results the filter behavior when exist objects with similar
characteristic to the object to track
- âŠ