960 research outputs found
Guided Weak Supervision for Action Recognition with Scarce Data to Assess Skills of Children with Autism
Diagnostic and intervention methodologies for skill assessment of autism
typically requires a clinician repetitively initiating several stimuli and
recording the child's response. In this paper, we propose to automate the
response measurement through video recording of the scene following the use of
Deep Neural models for human action recognition from videos. However,
supervised learning of neural networks demand large amounts of annotated data
that are hard to come by. This issue is addressed by leveraging the
`similarities' between the action categories in publicly available large-scale
video action (source) datasets and the dataset of interest. A technique called
guided weak supervision is proposed, where every class in the target data is
matched to a class in the source data using the principle of posterior
likelihood maximization. Subsequently, classifier on the target data is
re-trained by augmenting samples from the matched source classes, along with a
new loss encouraging inter-class separability. The proposed method is evaluated
on two skill assessment autism datasets, SSBD and a real world Autism dataset
comprising 37 children of different ages and ethnicity who are diagnosed with
autism. Our proposed method is found to improve the performance of the
state-of-the-art multi-class human action recognition models in-spite of
supervision with scarce data.Comment: AAAI 202
Numerical and experimental assessment of the modal curvature method for damage detection in plate structures
This paper is concerned with the use of numerically obtained modal curvatures for damage detection in both isotropic and composite laminated plates. Numerical simulations are carried out by using COMSOL Multiphysics as FEM solver of the governing equations, in which a Mindlin-Reissner plate model is assumed and defects are introduced as localized smoothed variations of the baseline (healthy) configuration. Experiments are also performed on steel and aluminum plates using scanning laser vibrometry. This study confirms that the central difference method greatly amplifies the measurement errors and its application leads to ineffective predictions for damage detection, even after denoising. As a consequence, different numerical techniques should be explored to allow the use of numerically obtained modal curvatures for structural health monitoring. Herein, the Savitzky-Golay filter (or least-square smoothing filter) is considered for the numerical differentiation of noisy data
Numerical and experimental assessment of the modal curvature method for damage detection in plate structures
Use of modal curvatures obtained from modal displacement data for damage detection in isotropic and composite laminated plates is addressed through numerical examples and experimental tests. Numerical simulations are carried out employing COMSOL Multiphysics as finite element solver of the equations governing the Mindlin-Reissner plate model. Damages are introduced as localized non-smooth variations of the bending stiffness of the baseline (healthy) configuration. Experiments are also performed on steel and aluminum plates using scanning laser vibrometry. The obtained results confirm that use of the central difference method to compute modal curvatures greatly amplifies the measurement errors and its application leads to unreliable predictions for damage detection, even after denoising. Therefore, specialized ad hoc numerical techniques must be suitably implemented to enable structural health monitoring via modal curvature changes. In this study, the Savitzky-Golay filter (also referred to as least-square smoothing filter) is considered for the numerical differentiation of noisy data. Numerical and experimental results show that this filter is effective for the reliable computation of modal curvature changes in plate structures due to defects and/or damages
Local recurrence and distant metastases 18 years after resection of the greater omentum hemangiopericytoma
<p>Abstract</p> <p>Background</p> <p>Hemangiopericytoma occurs with increasing frequency in 5<sup>th </sup>decade of life and has prediction for retroperitoneum and extremities. A case of a local recurrence and metastases of hemangiopericytoma is described.</p> <p>Case presentation</p> <p>Recurrence of hemangiopericytoma in the greater omentum and the jejunal mesentery as well as metastases in the retroperitoneal space were diagnosed in a 61-year-old patient who had a hemangiopericytoma of the greater omentum excised 18 years before.</p> <p>Conclusion</p> <p>Because of the rarity of this disease and its typical clinical course associated with late recurrence and metastases, the authors decided to present this case emphasizing the necessity of systematic oncological follow-up after the end of treatment.</p
Estimation of greenhouse gas emissions from spontaneous combustion/fire of coal in opencast mines â Indian context
There are a significant number of uncontrolled coal mine fires (primarily due to spontaneous combustion of coal), which are currently burning all over the world. These spontaneous combustion sources emit greenhouse gases (GHGs). A critical review reveals that there are no standard measurement methods to estimate GHG emissions from mine fire/spontaneous combustion areas. The objective of this research paper was to estimate GHGs emissions from spontaneous combustion of coals in the Indian context. A sampling chamber (SC) method was successfully used to assess emissions at two locations of the Enna Opencast Project (OCP), Jharia Coalfield (JCF), for 3 months. The study reveals that measured cumulative average emission rate for CO2 varies from 75.02 to 286.03 gsâ1mâ1 and CH4 varies from 41.49 to 40.34 gsâ1mâ1 for low- and medium-temperature zones. The total GHG emissions predicted from this single fire affecting mines of JCF vary from 16.86 to 20.19 Mtyrâ
A unique cause of hemoperitoneum: spontaneous rupture of a splenic hemangiopericytoma
Non-traumatic hemoperitoneum may be catastrophic if it is not promptly diagnosed and treated. It is critical to identify this clinical picture and treat any active bleeding. We report the first case in the literature (to our knowledge) of spontaneous hemoperitoneum caused by a cystic splenic hemangiopericytoma. Hemangiopericytomas represent a small subset of soft tissue sarcomas. They rarely originate in the spleen as a primary tumor, with only ten cases having been previously described. The difficulty of predicting the prognosis and clinical behavior of these lesions has been repeatedly stressed. The literature concerning this rare and unusual neoplasm is reviewed
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