A system and a method for controlling a system are described. The system includes a plurality of sensors configured to be worn on a user's body. The plurality of sensors are configured to generate a plurality of signals in response to forces applied by corresponding portions of a user's body. The system also includes a processor configured to receive the plurality of signals. The processor is configured to identify commands from the user based at least partly on the plurality of signals and an operational range and/or null space of the plurality of signals for a task being performed by the user. The processor is configured to control an operation of the system based on the identified commands.

A robot hand is provided. The robot hand includes a first and second drive gears rotated by first actuator and second actuators; a first interlocked gear interlocked with the second drive gear to rotate in opposite directions; a second interlocked gear interlocked with the first drive gear to rotate in opposite directions; a first inner link engaged with rotation of the first drive gear; a first outer link engaged with rotation of the first interlocked gear; a first end link connected to the first inner link and the first outer link opposite the first actuator; a second inner link engaged with rotation of the second interlocked gear; a second outer link engaged with rotation of the second drive gear; and a second end link connected to the second inner link and the second outer link opposite the second actuator.

A system and a method for controlling a system are described. The system includes a plurality of sensors configured to be worn on a user's body. The plurality of sensors are configured to generate a plurality of signals in response to forces applied by corresponding portions of a user's body. The system also includes a processor configured to receive the plurality of signals. The processor is configured to identify commands from the user based at least partly on the plurality of signals and an operational range and/or null space of the plurality of signals for a task being performed by the user. The processor is configured to control an operation of the system based on the identified commands.

A method includes controlling a robot body performed by a controller. The robot body includes a finger, a driving unit, and a detection unit. The driving unit is configured to move the finger. The detection unit is configured to output a signal corresponding to a state of the finger moved by the driving unit. The method includes causing the finger to hold a workpiece, causing the robot body to start a predetermined operation while causing the finger to keep holding the workpiece, if a detected value based on the signal outputted from the detection unit is within a first range, and causing the robot body to continue to perform the predetermined operation until completion of the predetermined operation, if the detected value is within a second range in the predetermined operation. The second range is different from the first range.

A robot system includes a robot, and an information processing portion. The information processing portion is configured to obtain a learned model by learning first force information about a force applied by a worker to a workpiece, first position information about a position of a first portion of the worker, and first workpiece information about a state of the workpiece, and control the robot on a basis of output data of the learned model.

A robot includes a robot arm having at least one arm, from which an end effector is detachable, a force detection unit provided between the end effector and the arm, and an energizing member that energizes the end effector toward the force detection unit side. It is preferable that the energizing member is an elastic member having elasticity. Further, a connecting part that couples the robot arm and the end effector is provided, and it is preferable that the force detection unit is provided between the end effector and the connecting part.

A robot hand is provided. The robot hand includes a first and second drive gears rotated by first actuator and second actuators; a first interlocked gear interlocked with the second drive gear to rotate in opposite directions; a second interlocked gear interlocked with the first drive gear to rotate in opposite directions; a first inner link engaged with rotation of the first drive gear; a first outer link engaged with rotation of the first interlocked gear; a first end link connected to the first inner link and the first outer link opposite the first actuator; a second inner link engaged with rotation of the second interlocked gear; a second outer link engaged with rotation of the second drive gear; and a second end link connected to the second inner link and the second outer link opposite the second actuator.