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Three-degrees-of-freedom orientation manipulation of small untethered robots with a single anisotropic soft magnet

Heng Wang, Junhao Cui, 寛喜 山田, Yuxiang Han

2023Nature Communications19 citationsDOIOpen Access PDF

Abstract

Magnetic actuation has been well exploited for untethered manipulation and locomotion of small-scale robots in complex environments such as intracorporeal lumens. Most existing magnetic actuation systems employ a permanent magnet onboard the robot. However, only 2-DoF orientation of the permanent-magnet robot can be controlled since no torque can be generated about its axis of magnetic moment, which limits the dexterity of manipulation. Here, we propose a new magnetic actuation method using a single soft magnet with an anisotropic geometry (e.g., triaxial ellipsoids) for full 3-DoF orientation manipulation. The fundamental actuation principle of anisotropic magnetization and 3-DoF torque generation are analytically modeled and experimentally validated. The hierarchical orientation stability about three principal axes is investigated, based on which we propose and validate a multi-step open-loop control strategy to alternatingly manipulate the direction of the longest axis of the soft magnet and the rotation about it for dexterous 3-DoF orientation manipulation.

Topics & Concepts

MagnetOrientation (vector space)Principal axis theoremTorqueRobotComputer scienceRotation (mathematics)Control theory (sociology)Magnetic momentEllipsoidPhysicsAnisotropyDegrees of freedom (physics and chemistry)Magnetic anisotropyMagnetic fieldMagnetizationArtificial intelligenceGeometryOpticsCondensed matter physicsMathematicsControl (management)Quantum mechanicsAstronomyThermodynamicsMicro and Nano RoboticsSoft Robotics and ApplicationsModular Robots and Swarm Intelligence
Three-degrees-of-freedom orientation manipulation of small untethered robots with a single anisotropic soft magnet | Litcius