Kun Xu scite author profile

Kun Xu

5Publications

56Citation Statements Received

466Citation Statements Given

How they've been cited

139

How they cite others

353

466

Affiliations

Beihang University, North China Electric Power University, China Aerodynamics Research and Development Center

Publications

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Learning from biological attachment devices: applications of bioinspired reversible adhesive methods in robotics

Ding

2022

Front. Mech. Eng.

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Many organisms have attachment organs with excellent functions, such as adhesion, clinging, and grasping, as a result of biological evolution to adapt to complex living environments. From nanoscale to macroscale, each type of adhesive organ has its own underlying mechanisms. Many biological adhesive mechanisms have been studied and can be incorporated into robot designs. This paper presents a systematic review of reversible biological adhesive methods and the bioinspired attachment devices that can be used in robotics. The study discussed how biological adhesive methods, such as dry adhesion, wet adhesion, mechanical adhesion, and sub-ambient pressure adhesion, progress in research. The morphology of typical adhesive organs, as well as the corresponding attachment models, is highlighted. The current state of bioinspired attachment device design and fabrication is discussed. Then, the design principles of attachment devices are summarized in this article. The following section provides a systematic overview of climbing robots with bioinspired attachment devices. Finally, the current challenges and opportunities in bioinspired attachment research in robotics are discussed.

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A review of structures, verification, and calibration technologies of space robotic systems for on-orbit servicing

Ding

Wang

et al. 2020

Sci. China Technol. Sci.

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Typical gait analysis of a six-legged robot in the context of metamorphic mechanism theory

Ding

2013

Chin. J. Mech. Eng.

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Dynamics and wheel's slip ratio of a wheel-legged robot in wheeled motion considering the change of height

Ding

2012

Chin. J. Mech. Eng.

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Terrain Adaptability Mechanism of Large Ruminants’ Feet on the Kinematics View

Zhang

Ding

2015

Applied Bionics and Biomechanics

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Ruminants live in various parts of land. Similar cloven hooves assist ruminants in adapting to different ground environment during locomotion. This paper analyzes the general terrain adaptability of the feet of ruminants using kinematics of the equivalent mechanism model based on screw theory. Cloven hooves could adjust attitude by changing relative positions between two digits in swing phase. This function helps to choose better landing orientation. “Grasping” or “holding” a rock or other object on the ground passively provides extra adhesion force in stance phase. Ruminants could adjust the position of the metacarpophalangeal joint or metatarsophalangeal joint (MTP or MCP) with no relative motion between the tip of feet and the ground, which ensures the adhesion and dexterity in stance phase. These functions are derived from an example from chamois' feet and several assumptions, which are believed to demonstrate the foundation of adaptation of ruminants and ensure a stable and continuous movement.

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Kun Xu

Learning from biological attachment devices: applications of bioinspired reversible adhesive methods in robotics

A review of structures, verification, and calibration technologies of space robotic systems for on-orbit servicing

Typical gait analysis of a six-legged robot in the context of metamorphic mechanism theory

Dynamics and wheel's slip ratio of a wheel-legged robot in wheeled motion considering the change of height

Terrain Adaptability Mechanism of Large Ruminants’ Feet on the Kinematics View

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