Your search keyword '"Wang, Wenbei"' showing total 11 results

1. Multiscale Modeling and Simulation of Falling Collision Damage Sensitivity of Kiwifruit.

Author

Zhu, Yue, Zhu, Licheng, Wang, Wenbei, Zhao, Bo, Han, Zhenhao, Wang, Ruixue, Yuan, Yanwei, Lu, Kunlei, Feng, Xuguang, and Hu, Xiaoxi

Subjects

RESPONSE surfaces (Statistics), FINITE element method, MULTISCALE modeling, REVERSE engineering, SURFACES (Technology), KIWIFRUIT

Abstract

Falling damage is the most common form of damage sustained by kiwifruit during the process of picking and post-processing, and it is difficult to conduct a quantitative analysis of this phenomenon through traditional experimental methods. In order to deeply understand the sensitivity of kiwifruit to falling collision damage, the finite element numerical simulation method was used to evaluate and predict the sensitivity of kiwifruit to falling collision damage during harvesting. First, we obtained the appearance characteristics of kiwifruit through reverse engineering technology and determined the geometric and mechanical property parameters of kiwifruit through physical mechanics experiments. Then, according to the characteristics of fruit tissue structure, a multiscale finite element model, including the skin, pulp, and core, was constructed to simulate the effects of different falling heights, collision angles, and contact surface materials on fruit damage, and the accuracy of the model was verified through falling experiments. Finally, based on the simulation results, the Box–Behnken design was employed within the response surface methodology to establish a sensitivity prediction model for the drop damage sensitivity of kiwifruit across different contact materials. The results showed that the maximum relative error between the speed change obtained using finite element simulation and the speed obtained by the high-speed camera was 5.19%. The model showed high rationality in energy distribution, with the maximum value of hourglass energy not exceeding 0.08% of the internal energy. On the contact surface material with a large elastic modulus, a higher falling height and larger collision angle will significantly increase the risk of fruit bruise. When the contact surface material was a steel plate, the falling height was 1 m, and the collision angle was 90°; the maximum bruise sensitivity of kiwifruit reached 6716.07 mm3 J−1. However, when the contact surface material was neoprene, the falling height was 0.25 m, and the collision angle was 0°, the damage sensitivity was the lowest, at 1570.59 mm3 J−1. The multiscale finite element model of kiwifruit falling collision constructed in this study can accurately predict the damage of kiwifruit during falling collision and provide an effective tool for the quantitative analysis of kiwifruit falling collision damage. At the same time, this study can also provide guidance for the design and optimization of the loss reduction method of the harvesting mechanism, which has important theoretical significance and practical value. [ABSTRACT FROM AUTHOR]

Published

2024

2. 2.5D Sound Field Reproduction Using Higher Order Loudspeakers

Author

Jia Maoshen, Wang Wenbei, and Yang Ziyu

Subjects

2.5d reproduction, sound field, high order loudspeaker, circular loudspeaker array, Cybernetics, Q300-390

Abstract

Using 3-Dimensional (3D) sound sources as secondary sources to 2-Dimensional (2D) sound field reproduction, it is termed 2.5-Dimensional (2.5D) sound field reproduction which is currently drawing broad interest in acoustic signal processing. In this paper we propose a method to reproduce a 2D sound field, using a circular array of 3D High Order (HO) loudspeakers, which provides a mode matching solution based on 3D wave field translation. Using the spherical addition theorem, we first obtain a spherical harmonics representation of a 2D sound field reproduced by an array of HO loudspeakers. Then, the corresponding relationship between the reproduced sound field and the desired sound field is established by spherical/cylindrical harmonic expansions. Finally, the modal weights of HO loudspeakers are designed by using a least squares method. Simulation results show that the proposed method extends the reproduction region and significantly reduces the required minimum number of loudspeakers over the other referenced methods.

Published

2015

3. Multi-Stage Encoding Scheme for Multiple Audio Objects Using Compressed Sensing

Author

Yang Ziyu, Jia Maoshen, Wang Wenbei, and Zhang Jiaming

Subjects

audio object coding, sparsity, compressed sensing, multi-stage encoding, Cybernetics, Q300-390

Abstract

Object-based audio techniques have become common since they provide the flexibility for personalized rendering. In this paper a multi-stage encoding scheme for multiple audio objects is proposed. The scheme is based on intra-object sparsity. In the encoding phase the dominant Time Frequency (TF) instants of all active object signals are extracted and divided into several stages to form the multistage observation signals for transmission. In the decoding phase the preserved TF instants are recovered via Compressed Sensing (CS) technique, and further used for reconstructing the audio objects. The evaluations validated that the proposed encoding scheme can achieve scalable transmission while maintaining perceptual quality of each audio object.

Published

2015

4. Reproduction of Nearby Sound Sources Using a Modified Distance Coding in Higher Order Ambisonics

Author

Jiaming Zhang, Jundai Sun, Wang Wenbei, and Jia Maoshen

Subjects

Computer science, Ambisonics, Signal Processing, Sound sources, Algorithm, Coding (social sciences)

Published

2017

5. Sound Field Reproduction of Focused Virtual Sources with Symmetry Sigmoid Regularization Function

Author

Jia, Maoshen, primary, Wang, Wenbei, additional, Sun, Jundai, additional, and Bao, Changchun, additional

Published

2018

6. Reproduction of Nearby Sound Sources Using a Modified Distance Coding in Higher Order Ambisonics

Author

Wang, Wenbei, primary, Jia, Maoshen, additional, Sun, Jundai, additional, and Zhang, Jiaming, additional

Published

2017

7. 2.5D interior/exterior sound field reproduction and its extension to narrowband speech signals

Author

Wang, Wenbei, primary, Jia, Maoshen, additional, Bao, Changchun, additional, and Zhang, Jiaming, additional

Published

2016

8. An analysis-by-synthesis encoding approach for multiple audio objects

Author

Yang, Ziyu, primary, Jia, Maoshen, additional, Bao, Changchun, additional, and Wang, Wenbei, additional

Published

2015

9. Nucleation and Growth of BaFxCl2−xNanorods

Author

Xie, Ting, primary, Li, Shuai, additional, Wang, Wenbei, additional, Peng, Qing, additional, and Li, Yadong, additional

Published

2008

10. Nucleation and Growth of BaF xCl2− x Nanorods.

Author

Xie, Ting, Li, Shuai, Wang, Wenbei, Peng, Qing, and Li, Yadong

Published

2008

11. Nucleation and growth of BaFxCl2-x nanorods.

Author

Xie T, Li S, Wang W, Peng Q, and Li Y

Abstract

Different ratios and sizes of Ba2F3Cl (BaFxCl2-x, x=1.5) nanorods and nanowires and orthorhombic BaF2 (BaFxCl2-x, x=2) nanorods were prepared by using a liquid-solid-solution approach at 160 approximately 180 degrees C. The processes and results of the experiments conducted to prepare monodisperse Ba2F3Cl nanorods and nanowires showed that the specific surface area increased as the initial concentrations were multiplied. Based on this fact, a mechanism for the nucleation and growth processes of these nanocrystals that have a variety of enlarged sizes was substantiated in view of the surface chemical thermodynamics (SCT). In this SCT mechanism, the specific surface energy takes into account both the surfactant oleic acid and the nanocrystal surface, and is dominated by the chemical potential of the adsorbate.

Published

2008