17 research outputs found
Fine-Grained Head Pose Estimation Without Keypoints
Estimating the head pose of a person is a crucial problem that has a large
amount of applications such as aiding in gaze estimation, modeling attention,
fitting 3D models to video and performing face alignment. Traditionally head
pose is computed by estimating some keypoints from the target face and solving
the 2D to 3D correspondence problem with a mean human head model. We argue that
this is a fragile method because it relies entirely on landmark detection
performance, the extraneous head model and an ad-hoc fitting step. We present
an elegant and robust way to determine pose by training a multi-loss
convolutional neural network on 300W-LP, a large synthetically expanded
dataset, to predict intrinsic Euler angles (yaw, pitch and roll) directly from
image intensities through joint binned pose classification and regression. We
present empirical tests on common in-the-wild pose benchmark datasets which
show state-of-the-art results. Additionally we test our method on a dataset
usually used for pose estimation using depth and start to close the gap with
state-of-the-art depth pose methods. We open-source our training and testing
code as well as release our pre-trained models.Comment: Accepted to Computer Vision and Pattern Recognition Workshops
(CVPRW), 2018 IEEE Conference on. IEEE, 201
Engineered biosynthesis of milbemycins in the avermectin high-producing strain Streptomyces avermitilis
Additional file 3 : Figure S2. HPLC analysis of milbemycins produced from S. avermitilis mutant strains and authentic standard milbemycins
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Enhancing Cognitive Assessment through Multimodal Sensing:A Case Study Using the Block Design Test
Many cognitive assessments are limited by their reliance onrelatively sparse measures of performance, like per-item ac-curacy or reaction time. Capturing more detailed behavioralmeasurements from cognitive assessments will enhance theirutility in many settings, from individual clinical evaluationsto large-scale research studies. We demonstrate the feasibilityof combining scene and gaze cameras with supervised learn-ing algorithms to automatically measure key behaviors on theblock design test, a widely used test of visuospatial cognitiveability. We also discuss how this block-design measurementsystem could enhance the assessment of many critical cogni-tive and meta-cognitive functions such as attention, planning,progress monitoring, and strategy selection
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Il volume è dedicato alla figura di Francesco Bandin
Increased eye contact during parent-child versus clinician-child interactions in young children with autism
Accumulating evidence suggests that when parents are actively involved in therapy, children with Autism Spectrum Disorder (ASD) have better outcomes, yet it is unknown whether children with ASD significantly alter their social behaviour with their parent versus a clinician. During a face-to-face interaction, young children (N = 27, ages 18-60 months) with ASD demonstrated longer durations and higher frequencies of eye contact with their parent compared to a clinician. Children also made more eye contact during snack versus interactive play with both their parent and the clinician, which is consistent with our prior work. The findings suggest that despite social communication difficulties associated with ASD, children with ASD demonstrated increased eye contact with their parent
One-Pot Combinatorial Biosynthesis of Glycosylated Anthracyclines by Cocultivation of <i>Streptomyces</i> Strains Producing Aglycones and Nucleotide Deoxysugars
Anthracyclines, such
as doxorubicin, are effective anticancer drugs
composed of a tetracyclic polyketide aglycone and one or more deoxysugar
moieties, which play a critical role in their biological activity.
A facile one-pot combinatorial biosynthetic system was developed for
the generation of a range of glycosylated derivatives of anthracyclines.
Cocultivation of <i>Streptomyces venezuelae</i> mutants
producing two anthracycline aglycones with eight different nucleotide
deoxysugar-producing <i>S. venezuelae</i> mutants that coexpress
a substrate-flexible glycosyltransferase led to the generation of
16 aklavinone or ε-rhodomycinone glycosides containing diverse
deoxysugar moieties, seven of which are new. This demonstrates the
potential of the one-pot combinatorial biosynthetic system based on
cocultivation as a facile biological tool capable of combining diverse
aglycones and deoxysugars to generate structurally diverse polyketides
carrying engineered sugars for drug discovery and development