Yankai Liu
Papers
3
Total Citations
14
H-Index
2
About
Yankai Liu is a robotics researcher whose work focuses on enhancing robotic precision and dexterity for industrial applications, particularly in aerospace assembly and adaptive grasping. His key research areas include robotic stiffness optimization, underactuated mechanisms, and self-adaptive gripper design. Liu’s major contributions include developing a stiffness optimization method for robotic drilling systems that improves accuracy in aerospace assembly—a critical advancement given the limitations of low-stiffness robots in posture-constrained environments. His work on underactuated robot fingers, such as the design incorporating a movable skeleton link and Hoeckens mechanism, enables linear clamping and self-adaptive grasping, solving the problem of circular end-phalanx trajectories that require auxiliary lifting motions. Another notable achievement is the development of a robot gripper with differential and Hoecken linkages, achieving straight parallel pinch and self-adaptive grasp without arc trajectories. While his citation counts are modest (6 citations for his top papers), these works represent foundational steps in practical robotic manipulation. Liu’s research is particularly relevant for students and engineers interested in precision robotics, mechanism design, and the intersection of mechanical innovation with real-world manufacturing challenges.
Research Focus
Key Achievements
Top Papers
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