571 research outputs found
Intraosseous Hemangioma of the Inferior Turbinate
The nasal cavity harbors an enormous variety of neoplasms, including epithelial and mesenchymal tumors. Hemangioma is an infrequent mesenchymal tumor of the nasal cavity, mostly arising in the mucosa and rarely in the bones. We describe the case of a 73-year-old woman who was referred to our hospital with a tumor in her left nasal cavity. The tumor originated from the left inferior turbinate. Histological examination subsequent to complete excision revealed that the tumor was an intraosseous cavernous hemangioma. To our knowledge, this is the second case of intraosseous hemangioma of the inferior turbinate reported in the English literature
Impact of acoustic similarity on efficiency of verbal information transmission via subtle prosodic cues
In this study, we investigate the effect of tiny acoustic differences on the efficiency of prosodic information transmission. Study participants listened to textually ambiguous sentences, which could be understood with prosodic cues, such as syllable length and pause length. Sentences were uttered in voices similar to the participant’s own voice and in voices dissimilar to their own voice. The participants then identified which of four pictures the speaker was referring to. Both the eye movement and response time of the participants were recorded. Eye tracking and response time results both showed that participants understood the textually ambiguous sentences faster when listening to voices similar to their own. The results also suggest that tiny acoustic features, which do not contain verbal meaning can influence the processing of verbal information
Slippery flowers as a mechanism of defence against nectar-thieving ants
滑る花びらがアリの花への侵入を妨げることを発見 --新たな花の防衛機構の存在を実証--. 京都大学プレスリリース. 2021-01-12.Background and Aims: The great diversity of floral characteristics among animal-pollinated plants is commonly understood to be the result of coevolutionary interactions between plants and pollinators. Floral antagonists, such as nectar thieves, also have the potential to exert an influence upon the selection of floral characteristics, but adaptation against floral antagonists has attracted comparatively little attention. We found that the corollas of hornet-pollinated Codonopsis lanceolata (Campanulaceae) and the tepals of bee-pollinated Fritillaria koidzumiana (Liliaceae) are slippery to nectar-thieving ants living in the plant’s habitat; because the flowers of both species have exposed nectaries, slippery perianths may function as a defence against nectar-thieving ants. Methods: We conducted a behavioural experiment and observed perianth surface microstructure by scanning electron microscopy to investigate the mechanism of slipperiness. Field experiments were conducted to test whether slippery perianths prevent floral entry by ants, and whether ant presence inside flowers affects pollination. Key Results: Scanning electron microscopy observations indicated that the slippery surfaces were coated with epicuticular wax crystals. The perianths lost their slipperiness when wiped with hexane. Artificial bridging of the slippery surfaces using non-slippery materials allowed ants to enter flowers more frequently. Experimental introduction of live ants to the Codonopsis flowers evicted hornet pollinators and shortened the duration of pollinator visits. However, no statistical differences were found in the fruit or seed sets of flowers with and without ants. Conclusions: Slippery perianths, most probably based on epicuticular wax crystals, prevent floral entry by ants that negatively affect pollinator behaviour. Experimental evidence of floral defence based on slippery surfaces is rare, but such a mode of defence may be widespread amongst flowering plants
c-trie++: A Dynamic Trie Tailored for Fast Prefix Searches
Given a dynamic set of strings of total length whose characters
are drawn from an alphabet of size , a keyword dictionary is a data
structure built on that provides locate, prefix search, and update
operations on . Under the assumption that
characters fit into a single machine word , we propose a keyword dictionary
that represents in bits of space,
supporting all operations in expected time on an
input string of length in the word RAM model. This data structure is
underlined with an exhaustive practical evaluation, highlighting the practical
usefulness of the proposed data structure, especially for prefix searches - one
of the most elementary keyword dictionary operations
Recognition of paper currencies by hybrid neural network
For the recognition of paper currencies by image processing, the two steps data processing approach can yield high performance. The two steps include “recognition” and “verification” steps. In the current recognition machine, a simple statistical test is used as the verification step, where univariate Gaussian distribution is employed. Here we propose the use of the probability density formed by a multivariable Gaussian function, where the input data space is transferred to a lower dimensional subspace. Due to the structure of this model, we refer the total processing system as a hybrid neural network. Since the computation of the verification model only needs the inner product and square, the computational load is very small. In this paper, the method and numerical experimental results are shown by using the real data and the recognition machine</p
Automatic Edge Error Judgment in Figure Skating Using 3D Pose Estimation from a Monocular Camera and IMUs
Automatic evaluating systems are fundamental issues in sports technologies.
In many sports, such as figure skating, automated evaluating methods based on
pose estimation have been proposed. However, previous studies have evaluated
skaters' skills in 2D analysis. In this paper, we propose an automatic edge
error judgment system with a monocular smartphone camera and inertial sensors,
which enable us to analyze 3D motions. Edge error is one of the most
significant scoring items and is challenging to automatically judge due to its
3D motion. The results show that the model using 3D joint position coordinates
estimated from the monocular camera as the input feature had the highest
accuracy at 83% for unknown skaters' data. We also analyzed the detailed motion
analysis for edge error judgment. These results indicate that the monocular
camera can be used to judge edge errors automatically. We will provide the
figure skating single Lutz jump dataset, including pre-processed videos and
labels, at https://github.com/ryota-takedalab/JudgeAI-LutzEdge
Decentralized policy learning with partial observation and mechanical constraints for multiperson modeling
Extracting the rules of real-world multi-agent behaviors is a current
challenge in various scientific and engineering fields. Biological agents
independently have limited observation and mechanical constraints; however,
most of the conventional data-driven models ignore such assumptions, resulting
in lack of biological plausibility and model interpretability for behavioral
analyses. Here we propose sequential generative models with partial observation
and mechanical constraints in a decentralized manner, which can model agents'
cognition and body dynamics, and predict biologically plausible behaviors. We
formulate this as a decentralized multi-agent imitation-learning problem,
leveraging binary partial observation and decentralized policy models based on
hierarchical variational recurrent neural networks with physical and
biomechanical penalties. Using real-world basketball and soccer datasets, we
show the effectiveness of our method in terms of the constraint violations,
long-term trajectory prediction, and partial observation. Our approach can be
used as a multi-agent simulator to generate realistic trajectories using
real-world data.Comment: 17 pages with 7 figures and 4 tables, accepted in Neural Network
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