6,413 research outputs found
The Drawn-Out Battle Against Stigma: Mental Health in Modern American Comics and Graphic Novels
The discussion of mental health issues in the media significantly shapes public perceptions, most notably in negative portrayals that contribute to the stereotyping of mental health patients. Perhaps surprisingly, comics and graphic novels are forms of media that have potential to mitigate such stigma, despite earlier criticism of mental health stereotypes propagated in some comics. This is reflected in a recent trend of comics treating mental health issues in more sympathetic ways. This paper discusses three American comics from the last decade, examining depictions of post-traumatic stress disorder in Garry Trudeau\u27s comic strip, Doonesbury, around 2005-2006, schizophrenia in Nate Powell\u27s graphic novel, Swallow Me Whole (2008), and depression in a short Captain America comic (2011). An analysis of these examples reveals that comics in the United States have a unique and promising place in mental health education. Comics can reach an at-risk target audience, convey their messages in a visual and non-textual way, use narrative to present important issues in an accessible manner, use humor to enable the discussion of taboo topics, and, in some cases, use popular characters to raise the profile of a certain issue. They also have the potential to serve directly as therapy for mental health patients, a trend currently more visible in the United Kingdom and Canada. The comics and graphic novels discussed show, perhaps a larger trend of the media moving away from stereotyping and towards a greater visibility and understanding of mental health issues
Relative service differentiation for mobile ad hoc networks
A relative bandwidth service differentiation scheme is proposed for mobile ad-hoc networks (MANETs).Peer reviewe
Correction of non-linearity effects in detectors for electron spectroscopy
Using photoemission intensities and a detection system employed by many
groups in the electron spectroscopy community as an example, we have
quantitatively characterized and corrected detector non-linearity effects over
the full dynamic range of the system. Non-linearity effects are found to be
important whenever measuring relative peak intensities accurately is important,
even in the low-countrate regime. This includes, for example, performing
quantitative analyses for surface contaminants or sample bulk stoichiometries,
where the peak intensities involved can differ by one or two orders of
magnitude, and thus could occupy a significant portion of the detector dynamic
range. Two successful procedures for correcting non-linearity effects are
presented. The first one yields directly the detector efficiency by measuring a
flat-background reference intensity as a function of incident x-ray flux, while
the second one determines the detector response from a least-squares analysis
of broad-scan survey spectra at different incident x-ray fluxes. Although we
have used one spectrometer and detection system as an example, these
methodologies should be useful for many other cases.Comment: 13 pages, 12 figure
A digital polar transmitter for multi-band OFDM Ultra-WideBand
Linear power amplifiers used to implement the Ultra-Wideband standard must be
backed off from optimum power efficiency to meet the standard specifications and
the power efficiency suffers. The problem of low efficiency can be mitigated by polar
modulation. Digital polar architectures have been employed on numerous wireless
standards like GSM, EDGE, and WLAN, where the fractional bandwidths achieved
are only about 1%, and the power levels achieved are often in the vicinity of 20 dBm.
Can the architecture be employed on wireless standards with low-power and high
fractional bandwidth requirements and yet achieve good power efficiency?
To answer these question, this thesis studies the application of a digital polar transmitter
architecture with parallel amplifier stages for UWB. The concept of the digital
transmitter is motivated and inspired by three factors. First, unrelenting advances
in the CMOS technology in deep-submicron process and the prevalence of low-cost
Digital Signal processing have resulted in the realization of higher level of integration
using digitally intensive approaches. Furthermore, the architecture is an evolution
of polar modulation, which is known for high power efficiency in other wireless applications.
Finally, the architecture is operated as a digital-to-analog converter which
circumvents the use of converters in conventional transmitters.
Modeling and simulation of the system architecture is performed on the Agilent Advanced
Design System Ptolemy simulation platform. First, by studying the envelope
signal, we found that envelope clipping results in a reduction in the peak-to-average
power ratio which in turn improves the error vector magnitude performance (figure
of merit for the study). In addition, we have demonstrated that a resolution of three
bits suffices for the digital polar transmitter when envelope clipping is performed.
Next, this thesis covers a theoretical derivation for the estimate of the error vector
magnitude based on the resolution, quantization and phase noise errors. An analysis
on the process variations - which result in gain and delay mismatches - for a
digital transmitter architecture with four bits ensues. The above studies allow RF
designers to estimate the number of bits required and the amount of distortion that
can be tolerated in the system.
Next, a study on the circuit implementation was conducted. A DPA that comprises
7 parallel RF amplifiers driven by a constant RF phase-modulated signal and 7
cascode transistors (individually connected in series with the bottom amplifiers)
digitally controlled by a 3-bit digitized envelope signal to reconstruct the UWB
signal at the output. Through the use of NFET models from the IBM 130-nm
technology, our simulation reveals that our DPA is able to achieve an EVM of -
22 dB. The DPA simulations have been performed at 3.432 GHz centre frequency
with a channel bandwidth of 528 MHz, which translates to a fractional bandwidth
of 15.4%. Drain efficiencies of 13.2/19.5/21.0% have been obtained while delivering
-1.9/2.5/5.5 dBm of output power and consuming 5/9/17 mW of power.
In addition, we performed a yield analysis on the digital polar amplifier, based
on unit-weighted and binary-weighted architecture, when gain variations are introduced
in all the individual stages. The dynamic element matching method is also
introduced for the unit-weighted digital polar transmitter. Monte Carlo simulations
reveal that when the gain of the amplifiers are allowed to vary at a mean of 1 with a
standard deviation of 0.2, the binary-weighted architecture obtained a yield of 79%,
while the yields of the unit-weighted architectures are in the neighbourhood of 95%.
Moreover, the dynamic element matching technique demonstrates an improvement
in the yield by approximately 3%.
Finally, a hardware implementation for this architecture based on software-defined
arbitrary waveform generators is studied. In this section, we demonstrate that the error vector magnitude results obtained with a four-stage binary-weighted digital polar
transmitter under ideal combining conditions fulfill the European Computer Manufacturers
Association requirements. The proposed experimental setup, believed to
be the first ever attempted, confirm the feasibility of a digital polar transmitter architecture
for Ultra-Wideband. In addition, we propose a number of power combining
techniques suitable for the hardware implementation. Spatial power combining, in
particular, shows a high potential for the digital polar transmitter architecture.
The above studies demonstrate the feasibility of the digital polar architecture with
good power efficiency for a wideband wireless standard with low-power and high
fractional bandwidth requirements
Content Delivery Latency of Caching Strategies for Information-Centric IoT
In-network caching is a central aspect of Information-Centric Networking
(ICN). It enables the rapid distribution of content across the network,
alleviating strain on content producers and reducing content delivery
latencies. ICN has emerged as a promising candidate for use in the Internet of
Things (IoT). However, IoT devices operate under severe constraints, most
notably limited memory. This means that nodes cannot indiscriminately cache all
content; instead, there is a need for a caching strategy that decides what
content to cache. Furthermore, many applications in the IoT space are
timesensitive; therefore, finding a caching strategy that minimises the latency
between content request and delivery is desirable. In this paper, we evaluate a
number of ICN caching strategies in regards to latency and hop count reduction
using IoT devices in a physical testbed. We find that the topology of the
network, and thus the routing algorithm used to generate forwarding
information, has a significant impact on the performance of a given caching
strategy. To the best of our knowledge, this is the first study that focuses on
latency effects in ICN-IoT caching while using real IoT hardware, and the first
to explicitly discuss the link between routing algorithm, network topology, and
caching effects.Comment: 10 pages, 9 figures, journal pape
Immunological studies in dermatitis herpetiformis
Imperial Users onl
Almost thermal operations: inhomogeneous reservoirs
The resource theory of thermal operations explains the state transformations
that are possible in a very specific thermodynamic setting: there is only one
thermal bath, auxiliary systems can only be in corresponding thermal state
(free states), and the interaction must commute with the free Hamiltonian (free
operation). In this paper we study the mildest deviation: the reservoir
particles are subject to inhomogeneities, either in the local temperature
(introducing resource states) or in the local Hamiltonian (generating a
resource operation). For small inhomogeneities, the two models generate the
same channel and thus the same state transformations. However, their
thermodynamics is significantly different when it comes to work generation or
to the interpretation of the "second laws of thermal operations".Comment: 9 pages, 5 figures. Supersedes submission arXiv:1806.0810
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