54 research outputs found
Geometric Aspects of Frame Representations of Abelian Groups
We consider frames arising from the action of a unitary representation of a
discrete countable abelian group. We show that the range of the analysis
operator can be determined by computing which characters appear in the
representation. This allows one to compare the ranges of two such frames, which
is useful for determining similarity and also for multiplexing schemes. Our
results then partially extend to Bessel sequences arising from the action of
the group. We apply the results to sampling on bandlimited functions and to
wavelet and Weyl-Heisenberg frames. This yields a sufficient condition for two
sampling transforms to have orthogonal ranges, and two analysis operators for
wavelet and Weyl-Heisenberg frames to have orthogonal ranges. The sufficient
condition is easy to compute in terms of the periodization of the Fourier
transform of the frame generators.Comment: 20 pages; contact author: Eric Webe
From God's home to people's house: Property struggles of church redevelopment
Religious organizations participate in urban redevelopment in various ways including redeveloping their churches. While the literature has attempted to explain church redevelopment from different perspectives, what has often been forgotten is the fundamental characteristic of churches as property in cities. Drawing on the established scholarship of legal geography, this article argues that the lens of property relations offers an insightful framework to examine church redevelopment. By presenting a case study in Hong Kong, this article unpacks the property struggles of church redevelopment to examine how that resulted from the conflicting property claims and why these claims emerged. This article contrasts and analyzes the religious and market-driven values underlying these claims in the context of a property-led society like Hong Kong. To understand how urban churches transform from God’s home to people’s house, it is necessary to recognize the diverse readings of property. In so doing, this article invites scholars to re-conceptualize urban struggles from the property lens
Validation of a Novel Traditional Chinese Medicine Pulse Diagnostic Model Using an Artificial Neural Network
In view of lacking a quantifiable traditional Chinese medicine (TCM) pulse
diagnostic model, a novel TCM pulse diagnostic model was introduced to quantify
the pulse diagnosis. Content validation was performed with a panel of TCM
doctors. Criterion validation was tested with essential hypertension. The gold
standard was brachial blood pressure measured by a sphygmomanometer. Two hundred
and sixty subjects were recruited (139 in the normotensive group and 121 in the
hypertensive group). A TCM doctor palpated pulses at left and right cun, guan,
and chi points, and quantified pulse qualities according to eight elements
(depth, rate, regularity, width, length, smoothness, stiffness, and strength) on
a visual analog scale. An artificial neural network was used to develop a pulse
diagnostic model differentiating essential hypertension from normotension.
Accuracy, specificity, and sensitivity were compared among various diagnostic
models. About 80% accuracy was attained among all models. Their specificity and
sensitivity varied, ranging from 70% to nearly 90%. It suggested that the novel
TCM pulse diagnostic model was valid in terms of its content and diagnostic
ability
Ensemble reweighting using Cryo-EM particles
Cryo-electron microscopy (cryo-EM) has recently become a premier method for
obtaining high-resolution structures of biological macromolecules. However, it
is limited to biomolecular samples with low conformational heterogeneity, where
all the conformations can be well-sampled at many projection angles. While
cryo-EM technically provides single-molecule data for heterogeneous molecules,
most existing reconstruction tools cannot extract the full distribution of
possible molecular configurations. To overcome these limitations, we build on a
prior Bayesian approach and develop an ensemble refinement framework that
estimates the ensemble density from a set of cryo-EM particles by reweighting a
prior ensemble of conformations, e.g., from molecular dynamics simulations or
structure prediction tools. Our work is a general approach to recovering the
equilibrium probability density of the biomolecule directly in conformational
space from single-molecule data. To validate the framework, we study the
extraction of state populations and free energies for a simple toy model and
from synthetic cryo-EM images of a simulated protein that explores multiple
folded and unfolded conformations
Reactivation of Epstein–Barr virus by a dual-responsive fluorescent EBNA1-targeting agent with Zn2+-chelating function
EBNA1 is the only Epstein–Barr virus (EBV) latent protein responsible for viral genome maintenance and is expressed in all EBV-infected cells. Zn2+ is essential for oligomerization of the functional EBNA1. We constructed an EBNA1 binding peptide with a Zn2+ chelator to create an EBNA1-specific inhibitor (ZRL5P4). ZRL5P4 by itself is sufficient to reactivate EBV from its latent infection. ZRL5P4 is able to emit unique responsive fluorescent signals once it binds with EBNA1 and a Zn2+ ion. ZRL5P4 can selectively disrupt the EBNA1 oligomerization and cause nasopharyngeal carcinoma (NPC) tumor shrinkage, possibly due to EBV lytic induction. Dicer1 seems essential for this lytic reactivation. As can been seen, EBNA1 is likely to maintain NPC cell survival by suppressing viral reactivation
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The impact of compassion from others and self-compassion on psychological distress, flourishing, and meaning in life among university students
Objectives: Research shows that compassion from others and from the self may enable university students to face, overcome, and bounce back from adversity and generate a greater sense of thriving and meaning in life. However, the underlying processes are largely unknown. The present study aimed to examine the associations of compassion with psychological distress, flourishing, and meaning in life among university students and explore the mechanisms underlying these associations. Methods: A total of 536 Hong Kong university students completed questionnaires measuring their experiences of compassion from others, self-compassion, resilience, psychological distress, flourishing, and meaning in life. Results: Serial mediation analyses showed that compassion from others was associated positively with self-compassion, which was, in turn, linked to greater resilience and consequently lower levels of psychological distress and higher levels of flourishing and meaning in life. Conclusions: Our findings reveal the associations of compassion from others and self-compassion with the well-being and life meaning of university students. The findings highlight the importance of being open and receptive to love and kindness from others. The findings also point to the importance of developing a caring attitude toward oneself
Robust estimation of bacterial cell count from optical density
Optical density (OD) is widely used to estimate the density of cells in liquid culture, but cannot be compared between instruments without a standardized calibration protocol and is challenging to relate to actual cell count. We address this with an interlaboratory study comparing three simple, low-cost, and highly accessible OD calibration protocols across 244 laboratories, applied to eight strains of constitutive GFP-expressing E. coli. Based on our results, we recommend calibrating OD to estimated cell count using serial dilution of silica microspheres, which produces highly precise calibration (95.5% of residuals <1.2-fold), is easily assessed for quality control, also assesses instrument effective linear range, and can be combined with fluorescence calibration to obtain units of Molecules of Equivalent Fluorescein (MEFL) per cell, allowing direct comparison and data fusion with flow cytometry measurements: in our study, fluorescence per cell measurements showed only a 1.07-fold mean difference between plate reader and flow cytometry data
Biorthogonality and multiwavelets in Hilbert spaces
10.1117/12.408620Proceedings of SPIE - The International Society for Optical Engineering4119356-362PSIS
LACE, a specification language for consistent access to heterogeneous database environments
Managing data in multiple, heterogeneous databases across an enterprise is a difficult problem. Heterogeneous database management systems (HDBMSs) begin to solve this problem by providing ways to specify what information should be accessed in the existing databases. However, these systems typically do not provide any way to declare how the integrity of the global or federated structure, and the data which populates it, should be maintained during global update operations. Instead, users must rely on their own knowledge of the distribution of the data and the relationships between the back-end stores to write application programs that maintain these relationships. The objective of this research is to define a language that allows users to declare how to maintain the integrity of a global data structure, the parts of which are distributed across heterogeneous databases. At run-time, a query translator uses the specification to execute correct updates and queries to the back-end systems. Users do not have to create special views to represent the distribution scheme or the interdatabase integrity constraints as part of the application. Furthermore, the language modularizes interdatabase dependencies and relationships from global schema definitions so that each can be maintained and evolved separately. This design will allow different user groups to crea.te views of the information that can be maintained separately from the integrity constraints across the local databases. A prototype is implemented to demonstrate the core concepts of the language. A design has also been included to show how it could interface with an existing heterogeneous database management system
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