608 research outputs found
sj-docx-1-tct-10.1177_15330338231219415 - Supplemental material for Extracellular Vesicles Obtained From Lung Adenocarcinoma Cells Cultured Under Intermittent Hypoxia Induce M2 Macrophage Polarization via miR-20a-5p Delivery
No full textSupplemental material, sj-docx-1-tct-10.1177_15330338231219415 for Extracellular Vesicles Obtained From Lung Adenocarcinoma Cells Cultured Under Intermittent Hypoxia Induce M2 Macrophage Polarization via miR-20a-5p Delivery by Yuanling Liu, Minzhen Lu, Feng Liu, Gang Xu, Congrui Feng, Yuluo Chen, Danyan Cai, Huake Sun, Yanjun Zeng, Jian Xie, Wei Ma and Xinglin Gao in Technology in Cancer Research & Treatment</p
Acoustic manipulation of sound with soft material-based actuators
No full textThis thesis describes a unique parabolic acoustic manipulator with an inflatable structure, which has high gain and directivity. We created a morphable elastomeric reflecting surface with a diameter of 14 cm (6 in). Applying vacuum deforms the device into a concave structure, which provides directional amplification of incoming acoustic waves. In addition, the author characterized the impedance of the soft material employed in the acoustic reflector, Ecoflex 00-10, in an impedance tube. Ecoflex 00-10 has a measured reflection coefficient of approximately 0.9 at frequencies ranging from 500 Hz to 5000 Hz. This new characterization suggests this class of silicone-based elastomers is capable of advanced morphable devices to manipulate sound. Simulations also demonstrate that the soft reflecting surface is capable of transformation into a set of desired parabolic shapes between an initial planar geometry (neutral position) and a configuration with maximum curvature. With an applied vacuum, the membrane reaches its maximum deformation limited by the aluminum housing. At this stage of actuation, experimental results show the deformed membrane has similar gain and directionality (polar response) as rigid parabolic reflectors. This type of system might find future uses for adjustable parabolic microphones and long-range communication devices.M.S.Includes bibliographical referencesby Yanjun Wan
Fig. 4 in Anti-inflammatory lignans and phenylethanoid glycosides from the root of Isodon ternifolius (D.Don) Kudô
No full textFig. 4. Experimental and calculated ECD spectra of 1.Published as part of <i>Zhang, Yanjun, Wang, Ke, Chen, Huangcan, He, Ruijie, Cai, Runlin, Li, Jian, Zhou, Dexiong, Liu, Wei, Huang, Xishan, Yang, Ruiyun, Deng, Shengping, Li, Jun & Guan, Xinlan, 2018, Anti-inflammatory lignans and phenylethanoid glycosides from the root of Isodon ternifolius (D.Don) Kudô, pp. 36-47 in Phytochemistry 153</i> on page 39, DOI: 10.1016/j.phytochem.2018.05.017, <a href="http://zenodo.org/record/10483944">http://zenodo.org/record/10483944</a>
Modeling dynamics in career construction: Reciprocal relationship between future work self and career exploration
Full text linkIn extant research, scholars have treated proactive career behavior (e.g., career exploration) primarily as a consequence of future work self. Yet, emerging evidence provides support for a relationship in the opposite direction, suggesting that career exploration may also be an antecedent. Using a cross-lagged panel design, we empirically tested the reciprocal relationship between future work self and career exploration. In Study 1, we measured both future work self and career exploration at two time points with an 8-week lag among 133 Chinese university students. Results showed that future work self and career exploration are reciprocally related over time. In Study 2 (N = 228), with a longer time lag (12 weeks), results showed that career exploration (Time 1) is significantly related to future work self (Time 3), but not vice versa. Moreover, career adaptability (measured in week 8, Time 2) mediates the reciprocal effects between future work self and career exploration. We discuss theoretical and practical implications.National Natural Science Foundation of China (NSFC) [71102107]; Australian GovernmentSSCIARTICLE21-3110
Impact of Adult Attachment Anxiety on Deception Judgments: Examining the Moderating Effect of Motivation
No full text Several psychologists have paid attention to individual differences in deception detection, but only a few studies have found significant results. The present study aimed to explore the relationship between attachment anxiety and deception judgment when there are no obvious cues to distinguish lies from truth, and to examine the moderating effect of motives. Participants were instructed to judge each of 10 audios on whether they were true or false. Subsequently, the attachment anxiety of participants was assessed using the Experiences in Close Relationships questionnaire. Results revealed that, compared with people who had low attachment anxiety, those with high attachment anxiety tend to have higher truth biases in the low-motive condition and lower accuracy in the high-motive condition. </jats:p
High-resolution absolute-dated Indian Monsoon record between 53 and 36 ka from Xiaobailong Cave, southwestern China
No full text
CONDICIÓN NECESARIA PARA QUE UN GRAFO BIPARTITO CONTENGA UN [a,b]-FACTOR
No full textEn este trabajo se probará fundamentalmente la existencia de un [a,b]-factor en un grafo bipartito balanceado G de orden 2n que cumple ciertas propiedades, tomando en cuenta que dicho resultado es una versión bipartita del teorema dado en Yanjun Li y Cai Mao-chen (1998). Nuestro resultado es: Sea G un grafo bipartito balanceado de orden 2n y sean a, bϵZ+ tales que 2≤a<b, entonces G tiene un [a,b]-factor si, d(G)≥ (a +1),n≥ y max{dG(u), dG (v)}≥, para cualquier par de vértices u,vϵ V(G) no adyacentes. PALABRAS CLAVES: Grado, Bipartito, Factor. ABSTRACT In this work, we shall fundamentally prove the existence of an [a,b]-factor in a balanced bipartite graph G of 2n order with certain properties, taking into account that this result is a bipartite version of the theorem given in Yanjun Li and Cai Mao-chen (1998). Our result is: let G be a bipartite graph of 2n order and let a, bϵZ+ be such that 2=a<b, then G has an [a,b]-factor if d(G)≥ (a +1),n≥ and max{ dG(u), dG (v)}≥, for any two nonadjacent vertices u and v in G.
AudioEar: Single-View Ear Reconstruction for Personalized Spatial Audio
No full textAbstract
We introduce AudioEar3D, a high-quality 3D ear dataset consisting of 112 point cloud ear scans with RGB images, to benchmark the ear reconstruction task. We further collect a 2D ear dataset composed of 2,000 images, each one with manual annotation of occlusion and 55 landmarks, named AudioEar2D. To our knowledge, both datasets have the largest scale and best quality of their kinds for public use.
Usage
The code is publicly available at https://github.com/seanywang0408/AudioEar.
The file organization of AudioEar3D is as following:
AudioEar3D
├── 001
# left ear data
├── left.jpg # processed RGB image of left ear
├── left.ply # processed point cloud of left ear in canonical pose (frontal view is negative-X and upper view is positive-Z)
├── left.json # 56 landmark annotations of image
├── mask_left.jpg # mask generated by the outer landmarks
├── masked_left.jpg # exclude background in left.jpg using mask_left.jpg
├── masked_left.png # exclude background in left.jpg using mask_left.jpg, but with four channels of RGB-A
# right ear data
├── right.jpg
...
├── masked_right.png
├── 002
...
├── 056
The file organization of AudioEar2D is as following:
AudioEar2D
├── 00000.png # processed ear image
├── 00000.json # landmark annotations
...
├── 69985.png # the index is aligned with the data source FFHQ.
├── 69985.json
Citation
If you find this project useful, currently please cite the paper as:
Xiaoyang Huang, Yanjun Wang, Yang Liu, Bingbing Ni, Wenjun Zhang, Jinxian Liu, Teng Li. "AudioEar: Single-View Ear Reconstruction for Personalized Spatial Audio". arXiv preprint arXiv:2301.12613, 2023.
or using bibtex:
@article{huang2023audioear,
title={AudioEar: Single-View Ear Reconstruction for Personalized Spatial Audio},
author={Huang, Xiaoyang and Wang, Yanjun and Liu, Yang and Ni, Bingbing and Zhang Wenjun and Liu Jinxian and Li, Teng},
journal={arXiv preprint arXiv:2301.12613},
year={2023}
}
License
The dataset is licensed under Creative Commons Attribution 4.0 International (CC BY 4.0).
The code is under Apache-2.0 License.
Mirror Link
We recommend users to download the data from Zenodo official link. However, if you find any downloading problem, you can also use this mirror link from Google Drive.
Changelog
v1.0: Initial repository of AudioEar3D and AudioEar2D
Imaging the spread of reversible brain inactivations using fluorescent muscimol
No full textAuthor manuscript. Published in final edited form as:
J Neurosci Methods. 2008 June 15; 171(1): 30–38
- …
