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ICCV
2009
IEEE
2009
IEEE
Time Series Prediction by Chaotic Modeling of Nonlinear Dynamical Systems
We use concepts from chaos theory in order to model
nonlinear dynamical systems that exhibit deterministic behavior.
Observed time series from such a system can be embedded
into a higher dimensional phase space without the
knowledge of an exact model of the underlying dynamics.
Such an embedding warps the observed data to a strange
attractor, in the phase space, which provides precise information
about the dynamics involved. We extract this information
from the strange attractor and utilize it to predict
future observations. Given an initial condition, the predictions
in the phase space are computed through kernel
regression. This approach has the advantage of modeling
dynamics without making any assumptions about the exact
form (linear, polynomial, radial basis, etc.) of the mapping
function. The predicted points are then warped back to the
observed time series. We demonstrate the utility of these
predictions for human action synthesis, and dynamic texture
synthesis. ...
Real-time TrafficChaotic Modeling | Computer Vision | ICCV 2009 | Nonlinear Dynamical Systems | Time Series Prediction |
| Added | 13 Jul 2009 |
| Updated | 10 Jan 2010 |
| Type | Conference |
| Year | 2009 |
| Where | ICCV |
| Authors | Arslan Basharat, Mubarak Shah |
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