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A New Multiple Hypothesis Tracker Integrated with Detection Processing.
In extant radar signal processing systems, detection and tracking are carried out independently, and detected measurements are utilized as inputs to the tracking procedure. Therefore, the tracking performance is highly associated with detection accuracy, and this performance may severely degrade when detections include a mass of false alarms and missed-targets errors, especially in dense clutter or closely-spaced trajectories scenarios. To deal with this issue, this paper proposes a novel method for integrating the multiple hypothesis tracker with detection processing. Specifically, the detector acquires an adaptive detection threshold from the output of the multiple hypothesis tracker algorithm, and then the obtained detection threshold is employed to compute the score function and sequential probability ratio test threshold for the data association and track estimation tasks. A comparative analysis of three tracking algorithms in a clutter dense scenario, including the proposed method, the multiple hypothesis tracker, and the global nearest neighbor algorithm, is conducted. Simulation results demonstrate that the proposed multiple hypothesis tracker integrated with detection processing method outperforms both the standard multiple hypothesis tracker algorithm and the global nearest neighbor algorithm in terms of tracking accuracy
A novel dendritic nanocarrier of polyamidoamine-polyethylene glycol-cyclic RGD for “smart” small interfering RNA delivery and in vitro antitumor effects by human ether-à-go-go-related gene silencing in anaplastic thyroid carcinoma cells
An Approximate Framework for Quantum Transport Calculation with Model Order Reduction
A new approximate computational framework is proposed for computing the
non-equilibrium charge density in the context of the non-equilibrium Green's
function (NEGF) method for quantum mechanical transport problems. The framework
consists of a new formulation, called the X-formulation, for single-energy
density calculation based on the solution of sparse linear systems, and a
projection-based nonlinear model order reduction (MOR) approach to address the
large number of energy points required for large applied biases. The advantages
of the new methods are confirmed by numerical experiments
Atomic decoration for improving the efficiency of field electron emission of carbon nanotubes
The field electron emission from the single-walled carbon nanotubes with
their open ends terminated by -BH, -NH, and -O has been simulated. The
apex-vacuum barrier and the emission current have been calculated. It has been
found that -BH and -NH suppress the apex-vacuum barrier significantly and lead
to higher emission current in contrast to the -O terminated structure in the
same applied field. The calculated binding energy implies that the carbon
nanotubes terminated with -BH and -NH are more stable than those saturated by
oxygen atoms or by hydrogen atoms.Comment: 8 pages, 9 figures, LaTeX; content changed, typos corrected,
references adde
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