A Bio‐Inspired Artificial Tactile Sensing System Based on Optical Microfiber and Enhanced by Neural Network

Weng, Junjie; Xiao, Siyang; Yu, Yang; Zhang, Jianfa; Chen, Jian; Wang, Dongying; Wang, Zhencheng; Liang, Jianqiao; Ma, Hansi; Yang, Junbo; Wang, Tianwu; Zhang, Zhenrong

doi:10.1002/adsr.202300157

Advanced Sensor Research

2024

DOI: 10.1002/adsr.202300157

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A Bio‐Inspired Artificial Tactile Sensing System Based on Optical Microfiber and Enhanced by Neural Network

Junjie Weng,

Siyang Xiao,

Yang Yu

et al.

Abstract: Human tactile perception involves the activation of mechanoreceptors located within the skin in response to external stimuli, along with the organization and processing within the brain. However, human sensations may be subject to the issues related to some physiological factors (such as skin injury or neurasthenia), resulting in inability to quantify tactile information. To address this challenge, a novel bio‐inspired artificial tactile (BAT) sensing system enabled by the integration of optical microfiber (OM… Show more

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Recent Progress in Tactile Sensing and Machine Learning for Texture Perception in Humanoid Robotics

Yu,

Liu

2024

Interdisciplinary Materials

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Humanoid robots have garnered substantial attention recently in both academia and industry. These robots are becoming increasingly sophisticated and intelligent, as seen in health care, education, customer service, logistics, security, space exploration, and so forth. Central to these technological advancements is tactile perception, a crucial modality through which humanoid robots exchange information with their external environment, thereby facilitating human‐like behaviors such as object recognition and dexterous manipulation. Texture perception is particularly vital for these tasks, as the surface morphology of objects significantly influences recognition and manipulation abilities. This review addresses the recent progress in tactile sensing and machine learning for texture perception in humanoid robots. We first examine the design and working principles of tactile sensors employed in texture perception, differentiating between touch‐based and sliding‐based approaches. Subsequently, we delve into the machine learning algorithms implemented for texture perception using these tactile sensors. Finally, we discuss the challenges and future opportunities in this evolving field. This review aims to provide insights into the state‐of‐the‐art developments and foster advancements in tactile sensing and machine learning for texture perception in humanoid robotics.

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Recent Progress in Tactile Sensing and Machine Learning for Texture Perception in Humanoid Robotics

Yu,

Liu

2024

Interdisciplinary Materials

View full text Add to dashboard Cite

show abstract

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A Bio‐Inspired Artificial Tactile Sensing System Based on Optical Microfiber and Enhanced by Neural Network

Cited by 1 publication

References 43 publications

Recent Progress in Tactile Sensing and Machine Learning for Texture Perception in Humanoid Robotics

Recent Progress in Tactile Sensing and Machine Learning for Texture Perception in Humanoid Robotics

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