596 research outputs found

    Region-based colour modelling for joint crop and maize tassel segmentation

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    Abstract not availableHao Lu, Zhiguo Cao, Yang Xiao, Yanan Li, Yanjun Zh

    The asarone-derived phenylpropanoids from the rhizome of Acorus calamus var. angustatus Besser

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    Bai, Yajun, Sun, Ying, Xie, Jing, Li, Bin, Bai, Yujun, Zhang, Dongxu, Liang, Jing, Xiao, Chaoni, Zhong, Aiguo, Cao, Yanjun, Zheng, Xiaohui (2020): The asarone-derived phenylpropanoids from the rhizome of Acorus calamus var. angustatus Besser. Phytochemistry (112212) 170: 1-9, DOI: 10.1016/j.phytochem.2019.112212, URL: http://dx.doi.org/10.1016/j.phytochem.2019.11221

    Fig. 3. 1H in The asarone-derived phenylpropanoids from the rhizome of Acorus calamus var. angustatus Besser

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    Fig. 3. 1H NMR Spectrum of Z-to-E conversion of compound 2b after 10 days storage in CDCl3 solution at ambient temperature under daylight conditions.Published as part of Bai, Yajun, Sun, Ying, Xie, Jing, Li, Bin, Bai, Yujun, Zhang, Dongxu, Liang, Jing, Xiao, Chaoni, Zhong, Aiguo, Cao, Yanjun & Zheng, Xiaohui, 2020, The asarone-derived phenylpropanoids from the rhizome of Acorus calamus var. angustatus Besser, pp. 1-9 in Phytochemistry (112212) 170 on page 5, DOI: 10.1016/j.phytochem.2019.112212, http://zenodo.org/record/829249

    Acoustic manipulation of sound with soft material-based actuators

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    This 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

    On the Communication Requirements of Decentralized Connectivity Control - A Field Experiment

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    Redundancy and parallelism make decentralized multi-robot systems appealing solutions for the exploration of extreme environments. However, effective cooperation can require team-wide connectivity and a carefully designed communication. Several recently proposed decentralized connectivity maintenance approaches exploit elegant algebraic results drawn from spectral graph theory. Yet, these proposals are rarely taken beyond simulations or laboratory implementations. The contribution of this work is two-fold: (i) we describe the full-stack implementation—from hardware to software—of a decentralized control law for robust connectivity maintenance; and (ii) we assess, in the field, our robots’ ability to correctly exchange the information required to execute it

    Fig. 2 in The asarone-derived phenylpropanoids from the rhizome of Acorus calamus var. angustatus Besser

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    Fig. 2. (A) Chiral HPLC profiles of compound 8a and 8b [Column: UniChiral OD-5H; Column size: 5 μm, 4.6 × 250 mm; Mobile phase: 90% n-hexane/10% ethanol (v/v); Flow rate: 1.0 mL/min; Wave length: UV 310 nm; Temperature: 25 ̊C.]; (B) calculated and experimental ECD spectra of 8a and 8b; (C) ΔδH(S−R) values (ppm, in pyridine-d5) obtained for the MTPA esters 8a.Published as part of Bai, Yajun, Sun, Ying, Xie, Jing, Li, Bin, Bai, Yujun, Zhang, Dongxu, Liang, Jing, Xiao, Chaoni, Zhong, Aiguo, Cao, Yanjun & Zheng, Xiaohui, 2020, The asarone-derived phenylpropanoids from the rhizome of Acorus calamus var. angustatus Besser, pp. 1-9 in Phytochemistry (112212) 170 on page 5, DOI: 10.1016/j.phytochem.2019.112212, http://zenodo.org/record/829249

    AudioEar: Single-View Ear Reconstruction for Personalized Spatial Audio

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    Abstract 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

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    Author manuscript. Published in final edited form as: J Neurosci Methods. 2008 June 15; 171(1): 30–38
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