39,332 research outputs found
ILAPF: Incremental Learning Assisted Particle Filtering
This paper is concerned with dynamic system state estimation based on a
series of noisy measurement with the presence of outliers. An incremental
learning assisted particle filtering (ILAPF) method is presented, which can
learn the value range of outliers incrementally during the process of particle
filtering. The learned range of outliers is then used to improve subsequent
filtering of the future state. Convergence of the outlier range estimation
procedure is indicated by extensive empirical simulations using a set of
differing outlier distribution models. The validity of the ILAPF algorithm is
evaluated by illustrative simulations, and the result shows that ILAPF is more
accurate and faster than a recently published state-ofthe-art robust particle
filter. It also shows that the incremental learning property of the ILAPF
algorithm provides an efficient way to implement transfer learning among
related state filtering tasks.Comment: 5 pages, 4 figures, conferenc
Josephson Oscillation and Transition to Self-Trapping for Bose-Einstein-Condensates in a Triple-Well Trap
We investigate the tunnelling dynamics of Bose-Einstein-Condensates(BECs) in
a symmetric as well as in a tilted triple-well trap within the framework of
mean-field treatment. The eigenenergies as the functions of the zero-point
energy difference between the tilted wells show a striking entangled star
structure when the atomic interaction is large. We then achieve insight into
the oscillation solutions around the corresponding eigenstates and observe
several new types of Josephson oscillations. With increasing the atomic
interaction, the Josephson-type oscillation is blocked and the self-trapping
solution emerges. The condensates are self-trapped either in one well or in two
wells but no scaling-law is observed near transition points. In particular, we
find that the transition from the Josephson-type oscillation to the
self-trapping is accompanied with some irregular regime where tunnelling
dynamics is dominated by chaos. The above analysis is facilitated with the help
of the Poicar\'{e} section method that visualizes the motions of BECs in a
reduced phase plane.Comment: 10 pages, 11 figure
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