834 research outputs found
Occluded Person Re-identification
Person re-identification (re-id) suffers from a serious occlusion problem
when applied to crowded public places. In this paper, we propose to retrieve a
full-body person image by using a person image with occlusions. This differs
significantly from the conventional person re-id problem where it is assumed
that person images are detected without any occlusion. We thus call this new
problem the occluded person re-identitification. To address this new problem,
we propose a novel Attention Framework of Person Body (AFPB) based on deep
learning, consisting of 1) an Occlusion Simulator (OS) which automatically
generates artificial occlusions for full-body person images, and 2) multi-task
losses that force the neural network not only to discriminate a person's
identity but also to determine whether a sample is from the occluded data
distribution or the full-body data distribution. Experiments on a new occluded
person re-id dataset and three existing benchmarks modified to include
full-body person images and occluded person images show the superiority of the
proposed method.Comment: 6 pages, 7 figures, IEEE International Conference of Multimedia and
Expo 201
Analysis of Realized Volatility in Two Trading Sessions of the Japanese Stock Market
We analyze realized volatilities constructed using high-frequency stock data
on the Tokyo Stock Exchange. In order to avoid non-trading hours issue in
volatility calculations we define two realized volatilities calculated
separately in the two trading sessions of the Tokyo Stock Exchange, i.e.
morning and afternoon sessions. After calculating the realized volatilities at
various sampling frequencies we evaluate the bias from the microstructure noise
as a function of sampling frequency. Taking into account of the bias to
realized volatility we examine returns standardized by realized volatilities
and confirm that price returns on the Tokyo Stock Exchange are described
approximately by Gaussian time series with time-varying volatility, i.e.
consistent with a mixture of distributions hypothesis.Comment: 12 pages, reference correcte
Application of Molecular Probes in Tumor Treatment
Photothermal therapy refers to the addition of targeted drugs with photothermal effects into the patient's body. Through targeting, the drug specifically recognizes tumor cells and accumulates around tumor cells. Afterwards, it is irradiated with a laser of a specific wavelength to achieve a local temperature increase, thereby achieving the effect of killing or locating tumor cells. Therefore, the most important part of this treatment method is the photothermal probe with a targeting effect and good photothermal effect. The existing photothermal probes are mainly composed of inorganic substances, organic small molecules and organic biomolecules. This paper will mainly introduce the development status and prospects of performance of these three types of photothermal probes to introduce photothermal agent development
Computational Modeling of Radiation Damage in a Multi-Phase Ceramic Waste Form Using MOOSE
Ceramic waste forms have been proposed to replace the traditional glassy waste forms for long term stabilization of radionuclides. These waste forms are constantly exposed to self-irradiation emitted from the constituent radionuclides causing their material properties to change accordingly. It has been known that the radiation damage in waste forms is dominated by alpha particles emitted from transuranic (TRU) radionuclides. Since alpha particles usually have a range of 10~20 μm in such waste forms, some fraction of any non-transuranic containing phases (for a multiphase waste form) will be undamaged (or less damaged) if containing large enough grain sizes. Modeling and simulation of such radiation damage is important for both designing and analyzing ceramic waste forms. Considering this, a method that utilizes computer codes, MCNP6.2 and TRIM, is developed for computing damage measured in atomic displacements created in such waste forms. This work builds upon earlier work that created a Multiphysics Object Oriented Simulation Environment (MOOSE) based application called TREX capable of modeling radionuclide diffusion in a multiphase waste form. The method is introduced using an example that simulates alpha particles originating from a pyrochlore phase and initiating damage within that phase and in any neighboring phases including a possible hollandite phase as may be present in a multiphase waste form. Alpha particle irradiation induced primary knock-on atom (PKA) energy data from TRIM is used as an input to the Norgett- Robinson-Torrens (NRT) calculation of displacement. Together with the positional dependent particle current information from MCNP, damage (displacement) distribution in hollandite is thereby calculated. A MOOSE Object is created and added to the MOOSE based application, TREX, for analyzing the actual damage distribution in a complex multiphase waste form
A 40-GHz Load Modulated Balanced Power Amplifier using Unequal Power Splitter and Phase Compensation Network in 45-nm SOI CMOS
© 2023 IEEE - All rights reserved. This is the accepted manuscript version of an article which has been published in final form at https://doi.org/10.1109/TCSI.2023.3282731 ​​​​​​​In this work, a ten-way power-combined poweramplifier is designed using a load modulated balanced amplifier(LMBA)-based architecture. To provide the required magnitudeand phase controls between the main and control-signal paths ofthe LMBA, an unequal power splitter and a phase compensationnetwork are proposed. As proof of concept, the designed poweramplifier is implemented in a 45-nm SOI CMOS process. At 40GHz, it delivers a 25.1 dBm Psat with a peak power-addedefficiency (PAE) of 27.9%. At 6-dB power back-off level, itachieves 1.39 times drain efficiency enhancement over an idealClass-B power amplifier. Using a 200-MHz single-carrier 64-QAMsignal, the designed amplifier delivers an average output power of16.5 dBm with a PAE of 13.1% at an EVMrms of -23.9 dB andACPR of -25.3 dBc. The die size, including all testing pads, is only1.92 mm2. To the best of the authors’ knowledge, compared withthe other recently published silicon-based LMBAs, this designachieves the highest Psat.Peer reviewe
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