Advanced Flexible Sensing Technologies for Soft Robots

Advanced Functional Materials

Juntian Qu, Guangming Cui, Zhenkun Li, Shutong Fang, Xianrui Zhang, Ang Liu, Mingyue Han, Houde Liu, Xueqian Wang, Xiaohao Wang

Citations:

62

References:

314

Abstract

Abstract Soft robots have recently attracted increasing interest due to their advantages in durability, flexibility, and deformability, which enable them to adapt to unstructured environments and perform various complex tasks. Perception is crucial for soft robots. To better mimic biological systems, sensors need to be integrated into soft robotic systems to obtain both proprioceptive and external...

Keywords

Flexibility (engineering)

Soft robotics

Robot

Computer science

Robotics

Soft materials

Human–computer interaction

Artificial intelligence

Systems engineering

Field (mathematics)

Emerging technologies

Nanotechnology

Engineering

Materials science

Statistics

Mathematics

Pure mathematics

Sustainable Development Goals (SDG)

Industry, innovation and infrastructure

2024

Article

Institution

Tsinghua University,

Shenzhen International Graduate School, Tsinghua University, Shenzhen, 518055 China,

School of Mechanical, Electronic and Control Engineering, Beijing Jiaotong University, Beijing, 100044 China

Publisher

Wiley

2-Y Citation Average

16.383

DOI

https://doi.org/10.1002/adfm.202401311

Language

en

Country

China

Advanced Flexible Sensing Technologies for Soft Robots

Advanced Functional Materials

Juntian Qu, Guangming Cui, Zhenkun Li, Shutong Fang, Xianrui Zhang, Ang Liu, Mingyue Han, Houde Liu, Xueqian Wang, Xiaohao Wang

Citations:

62

References:

314

Abstract

Abstract Soft robots have recently attracted increasing interest due to their advantages in durability, flexibility, and deformability, which enable them to adapt to unstructured environments and perform various complex tasks. Perception is crucial for soft robots. To better mimic biological systems, sensors need to be integrated into soft robotic systems to obtain both proprioceptive and external...

Keywords

Flexibility (engineering)

Soft robotics

Robot

Computer science

Robotics

Soft materials

Human–computer interaction

Artificial intelligence

Systems engineering

Field (mathematics)

Emerging technologies

Nanotechnology

Engineering

Materials science

Statistics

Mathematics

Pure mathematics

Sustainable Development Goals (SDG)

Industry, innovation and infrastructure

2024

Article

Institution

Tsinghua University,

Shenzhen International Graduate School, Tsinghua University, Shenzhen, 518055 China,

School of Mechanical, Electronic and Control Engineering, Beijing Jiaotong University, Beijing, 100044 China

Publisher

Wiley

2-Y Citation Average

16.383

DOI

https://doi.org/10.1002/adfm.202401311

Language

en

Country

China

Advanced Flexible Sensing Technologies for Soft Robots

Abstract

Keywords

Sustainable Development Goals (SDG)

Advanced Flexible Sensing Technologies for Soft Robots

Advanced Flexible Sensing Technologies for Soft Robots

Abstract

Keywords

Sustainable Development Goals (SDG)

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