829 research outputs found
Estimating the Quality of Electroconvulsive Therapy Induced Seizures Using Decision Tree and Fuzzy Inference System Classifiers
Electroconvulsive therapy (ECT) is an effective and widely used treatment for major depressive disorder, in which a brief electric current is passed through the brain to trigger a brief seizure. This study aims to identify seizure quality rating by utilizing a set of seizure parameters. We used 750 ECT EEG recordings in this experiment. Four seizure related parameters, (time of slowing, regularity, stereotypy and post-ictal suppression) are used as inputs to two classifiers, decision tree and fuzzy inference system (FIS), to predict seizure quality ratings. The two classifiers produced encouraging results with error rate of 0.31 and 0.25 for FIS and decision tree, respectively. The classification results show that the four seizure parameters provide relevant information about the rating of seizure quality. Automatic scoring of seizure quality may be beneficial to clinicians working in this field
Generalized Conformal Quantum Mechanics of D0-brane
We study the generalized conformal quantum mechanics of the probe D0-brane in
the near horizon background of the bound state of source D0-branes. We
elaborate on the relationship of such model to the M theory in the light cone
frame.Comment: 14 pages, RevTeX, revised version with added references to appear in
Phys. Rev.
Deep Learning Assisted Data Inspection for Radio Astronomy
Modern radio telescopes combine thousands of receivers, long-distance
networks, large-scale compute hardware, and intricate software. Due to this
complexity, failures occur relatively frequently. In this work we propose novel
use of unsupervised deep learning to diagnose system health for modern radio
telescopes. The model is a convolutional Variational Autoencoder (VAE) that
enables the projection of the high dimensional time-frequency data to a
low-dimensional prescriptive space. Using this projection, telescope operators
are able to visually inspect failures thereby maintaining system health. We
have trained and evaluated the performance of the VAE quantitatively in
controlled experiments on simulated data from HERA. Moreover, we present a
qualitative assessment of the the model trained and tested on real LOFAR data.
Through the use of a naive SVM classifier on the projected synthesised data, we
show that there is a trade-off between the dimensionality of the projection and
the number of compounded features in a given spectrogram. The VAE and SVM
combination scores between 65% and 90% accuracy depending on the number of
features in a given input. Finally, we show the prototype
system-health-diagnostic web framework that integrates the evaluated model. The
system is currently undergoing testing at the ASTRON observatory
Comment on Counting Black Hole Microstates Using String Dualities
We discuss a previous attempt at a microscopic counting of the entropy of
asymptotically flat non-extremal black-holes. This method used string dualities
to relate 4 and 5 dimensional black holes to the BTZ black hole. We show how
the dualities can be justified in a certain limit, equivalent to a near horizon
limit, but the resulting spacetime is no longer asymptotically flat.Comment: 10 pages, harvmac. v(2) typo correcte
Estimating the Quality of Electroconvulsive Therapy Induced Seizures Using Decision Tree and Fuzzy Inference System Classifiers
© 2018 IEEE. Electroconvulsive therapy (ECT) is an effective and widely used treatment for major depressive disorder, in which a brief electric current is passed through the brain to trigger a brief seizure. This study aims to identify seizure quality rating by utilizing a set of seizure parameters. We used 750 ECT EEG recordings in this experiment. Four seizure related parameters, (time of slowing, regularity, stereotypy and post-ictal suppression) are used as inputs to two classifiers, decision tree and fuzzy inference system (FIS), to predict seizure quality ratings. The two classifiers produced encouraging results with error rate of 0.31 and 0.25 for FIS and decision tree, respectively. The classification results show that the four seizure parameters provide relevant information about the rating of seizure quality. Automatic scoring of seizure quality may be beneficial to clinicians working in this field
Holographic Kondo Model in Various Dimensions
We study the addition of localised impurities to U(N) Supersymmetric
Yang-Mills theories in (p+1)-dimensions by using the gauge/gravity
correspondence. From the gravity side, the impurities are introduced by
considering probe D(8-p)-branes extendingalong the time and radial directions
and wrapping an (7-p)-dimensional submanifold of the internal (8-p)-sphere, so
that the degrees of freedom are point-like from the gauge theory perspective.
We analyse both the configuration in which the branes generate straight flux
tubes -corresponding to actual single impurities - and the one in which
connected flux tubes are created- corresponding to dimers. We discuss the
thermodynamics of both the configurations and the related phase transition. In
particular, the specific heat of the straight flux-tube configuration is
negative for p<3, while it is never the case for the connected one. We study
the stability of the system by looking at the impurity fluctuations. Finally,
we characterise the theory by computing one- and two-point correlators of the
gauge theory operators dual to the impurity fluctuations. Because of the
underlying generalised conformal structure, such correlators can be expressed
in terms of an effective coupling constant (which runs because of its
dimensionality) and a generalised conformal dimension.Comment: 56 pages, 3 figures; v2: typos correcte
More Superstrings from Supergravity
The four six-dimensional ``little string'' theories are all described in the
infinite momentum frame (IMF) as matrix theories by non-trivial 1+1 dimensional
infra-red fixed points. We characterize these fixed points using supergravity.
Starting from the matrix theory definition of M5-branes, we derive an
associated dual supergravity description of the fixed point theories, arising
as the near horizon geometry of certain brane configurations. These
supergravity solutions are all smooth, and involve three dimensional Anti-de
Sitter space AdS_3. They therefore provide a complete description of the fixed
point theories, and hence the IMF little string theories, if the AdS/CFT
correspondence holds.Comment: 17 pages, harvmac.tex; epsf.tex for two decorative figures
(References added.
Microstructural and physical aspects of heat treated wood, part 1: softwood
Heat treatment of wood is an effective method to improve the dimensional stability and durability against biodegradation. Optimisation of a two-stage heat treatment process at relatively mild conditions (<200°C) and its effect on the anatomical structure of softwoods were investigated by means of a light and scanning electron microscopic analysis. Heat treatment did have an effect on the anatomical structure of wood, although this depends on the wood species considered and on the process method and conditions used. Softwood species with narrow annual rings and/or an abrupt transition from earlywood into latewood were sensitive to tangential cracks in the latewood section. Radial cracks occurred mainly in impermeable wood species such as Norway spruce, caused by large stresses in the wood structure during treatment. Sapwood of treated pine species revealed some damage to parenchyma cells in the rays and epithelial cells around resin canals, whereas this phenomenon has not been noticed in the heartwood section. Treated radiata pine resulted in a very open and permeable wood structure limiting the applications of this species. Broken cell walls perpendicular to the fibre direction resulting in transverse ruptures have been noticed in treated softwood species. This contributes to abrupt fractures of treated wood as observed in bending tests which can lead to considerably different failure behavior after impact or mechanical stress. In some treated softwood species maceration (small cracks between tracheids) was noticed after heat treatment. Heat treatment did not cause damage to the ray parenchyma pit membranes, bordered pits and large window pit membranes; the margo fibrils appeared without damage. Compared to the other softwood timbers tested European grown Douglas fir was the timber that stands heat treatment the best
Lokomat guided gait in hemiparetic stroke patients:the effects of training parameters on muscle activity and temporal symmetry
Purpose: The Lokomat is a commercially available robotic gait trainer, applied for gait rehabilitation in post-stroke hemiparetic patients. Selective and well-dosed clinical use of the Lokomat training parameters, i.e. guidance, speed and bodyweight support, requires a good understanding of how these parameters affect the neuromuscular control of post-stroke hemiparetic gait. Materials and methods: Ten stroke patients (unilateral paresis, 7 females, 64.5 ± 6.4 years, >3months post-stroke, FAC scores 2–4)) walked in the Lokomat under varying parameter settings: 50% or 100% guidance, 0.28 or 0.56m/s, 0% or 50% bodyweight support. Electromyography was recorded bilaterally from Gluteus Medius, Biceps Femoris, Vastus Lateralis, Medial Gastrocnemius, and Tibialis Anterior. Pressure sensors placed under the feet were used to determine the level of temporal gait symmetry. Results: Varying guidance and bodyweight support had little effect on muscle activity, but increasing treadmill speed led to increased activity in both the affected (Biceps Femoris, Medial Gastrocnemius, Tibialis Anterior) and unaffected leg (all muscles). The level of temporal symmetry was unaffected by the parameter settings. Conclusions: The Lokomat training parameters are generally ineffective in shaping short term muscle activity and step symmetry patients with hemiparetic stroke, as speed is the only parameter that significantly affects muscular amplitude. Trial Registration: d.n.a.IMPLICATIONS FOR REHABILITATIONThe Lokomat is a commercially available gait trainer that can be used for gait rehabilitation in post-stroke hemiparetic patients.This study shows that muscle amplitude is generally low during Lokomat guided walking, and that treadmill Speed is the main training parameter to influence muscular output in stroke patients during Lokomat walking.Varying Guidance and Bodyweight Support within a clinical relevant range barely affected muscle activity, and temporal step symmetry was unaffected by variation in any of the training parameters.Based on the findings it is advised to increase speed as early as possible during Lokomat therapy, or use other means (e.g. feedback or instructions) to stimulate active involvement of patients during training. The Lokomat is a commercially available gait trainer that can be used for gait rehabilitation in post-stroke hemiparetic patients. This study shows that muscle amplitude is generally low during Lokomat guided walking, and that treadmill Speed is the main training parameter to influence muscular output in stroke patients during Lokomat walking. Varying Guidance and Bodyweight Support within a clinical relevant range barely affected muscle activity, and temporal step symmetry was unaffected by variation in any of the training parameters. Based on the findings it is advised to increase speed as early as possible during Lokomat therapy, or use other means (e.g. feedback or instructions) to stimulate active involvement of patients during training.</p
Let's Twist Again: General Metrics of G(2) Holonomy from Gauged Supergravity
We construct all complete metrics of cohomogeneity one G(2) holonomy with S^3
x S^3 principal orbits from gauged supergravity. Our approach rests on a
generalization of the twisting procedure used in this framework. It corresponds
to a non-trivial embedding of the special Lagrangian three-cycle wrapped by the
D6-branes in the lower dimensional supergravity. There are constraints that
neatly reduce the general ansatz to a six functions one. Within this approach,
the Hitchin system and the flop transformation are nicely realized in eight
dimensional gauged supergravity.Comment: 31 pages, latex; v2: minor changes, references adde
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