10,920 research outputs found
IoT Platform for COVID-19 Prevention and Control: A Survey
As a result of the worldwide transmission of severe acute respiratory
syndrome coronavirus 2 (SARS-CoV-2), coronavirus disease 2019 (COVID-19) has
evolved into an unprecedented pandemic. Currently, with unavailable
pharmaceutical treatments and vaccines, this novel coronavirus results in a
great impact on public health, human society, and global economy, which is
likely to last for many years. One of the lessons learned from the COVID-19
pandemic is that a long-term system with non-pharmaceutical interventions for
preventing and controlling new infectious diseases is desirable to be
implemented. Internet of things (IoT) platform is preferred to be utilized to
achieve this goal, due to its ubiquitous sensing ability and seamless
connectivity. IoT technology is changing our lives through smart healthcare,
smart home, and smart city, which aims to build a more convenient and
intelligent community. This paper presents how the IoT could be incorporated
into the epidemic prevention and control system. Specifically, we demonstrate a
potential fog-cloud combined IoT platform that can be used in the systematic
and intelligent COVID-19 prevention and control, which involves five
interventions including COVID-19 Symptom Diagnosis, Quarantine Monitoring,
Contact Tracing & Social Distancing, COVID-19 Outbreak Forecasting, and
SARS-CoV-2 Mutation Tracking. We investigate and review the state-of-the-art
literatures of these five interventions to present the capabilities of IoT in
countering against the current COVID-19 pandemic or future infectious disease
epidemics.Comment: 12 pages; Submitted to IEEE Internet of Things Journa
SU(3) trimer resonating-valence-bond state on the square lattice
We propose and study an SU(3) trimer resonating-valence-bond (tRVB) state
with point-group symmetry on the square lattice. By devising a
projected entangled-pair state representation, we show that all (connected)
correlation functions between local operators in this SU(3) tRVB state decay
exponentially, indicating its gapped nature. We further calculate the modular
and matrices by constructing all nine topological sectors on a torus
and establish the existence of topological order in this SU(3)
tRVB state.Comment: 6 pages, 6 figure
Frustration-induced magnetic bimerons in transition metal halide CoX2 (X = Cl, Br) monolayers
With the field of two-dimensional (2D) magnetic materials expanding rapidly,
noncollinear topological magnetic textures in 2D materials are attracting
growing interest recently. As the in-plane counterpart of magnetic skyrmions,
magnetic bimerons have the same topological advantages, but are rarely observed
in experiments. Employing first-principles calculations and Monte Carlo
simulations, we predict that the centrosymmetric transition metal halide CoX2
(X = Cl, Br) monolayers can be promising candidates for observing the
frustration-induced bimerons. These bimerons crystallize into stable triangular
lattice under an appropriate magnetic field. Compared to the skyrmions driven
by the Dzyaloshinskii-Moriya interaction or the long-ranged magnetic
dipole-dipole interactions, these frustration-induced bimerons have much
smaller size and flexible tunability. Furthermore, the biaxial strain provides
an effective method to tune the frustration and thereby to tune the bimeron
lattice. In detail, for CoCl2 monolayer, tensile strain can be applied to
generate bimeron lattice, further shrink bimeron size and increase the density
of bimerons. For CoBr2 monolayer with inherent bimeron lattice state, a unique
orientation rotation of bimeron lattice controlled by compressive strain is
predicted.Comment: 14 pages,6 figure
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