Multi-modal emotion recognition using tensor decomposition fusion and self-supervised multi-tasking

Wang, Rui; Zhu, Jiawei; Wang, Shoujin; Wang, Tao; Huang, Jingze; Zhu, Xianxun

doi:10.1007/s13735-024-00347-3

Int J Multimed Info Retr

2024

DOI: 10.1007/s13735-024-00347-3

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Multi-modal emotion recognition using tensor decomposition fusion and self-supervised multi-tasking

Rui Wang,

Jiawei Zhu,

Shoujin Wang

et al.

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Levitational Dynamics: Analyzing the Performance of Lightweight Objects over a Vertical Jet

Fan

2024

HSET

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This paper explores the phenomenon of aerodynamic levitation, concentrating on the performance of various lightweight objects as they are positioned over a vertical air jet emitted by a standard household hair dryer. The study meticulously analyzes levitation, which is achieved by balancing gravitational pull with aerodynamic forces that act counteractively, utilizing objects of different masses, volumes, and geometric shapes. The experimental framework is crafted using easily accessible household items, which include a hair dryer for generating air jets and various lightweight objects. The process involves video recording to meticulously track and analyze the stability and altitude of these objects while they levitate. To interpret the experimental data, the study integrates mathematical calculations and fundamental physics theorems. Results from the experiments indicate that the shape of an object is a critical factor influencing its stability and effectiveness in levitation scenarios. Spherical and ellipsoidal objects exhibit superior levitational characteristics and maintain stability more effectively compared to angular-shaped objects such as cubes and pyramids, which display a propensity to be displaced from the jet stream due to their less aerodynamically favorable shapes.

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Levitational Dynamics: Analyzing the Performance of Lightweight Objects over a Vertical Jet

Fan

2024

HSET

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show abstract

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Multi-modal emotion recognition using tensor decomposition fusion and self-supervised multi-tasking

Cited by 1 publication

References 21 publications

Levitational Dynamics: Analyzing the Performance of Lightweight Objects over a Vertical Jet

Levitational Dynamics: Analyzing the Performance of Lightweight Objects over a Vertical Jet

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