There is disclosed a stretchable sensor system for measuring deformation of an elastomer, the stretchable sensor system comprising at least one magnet; at least one magnetic sensor, each having a sensor output; and a controller, wherein the at least one magnet is/are fixed to the elastomer at a respective first location or plurality of locations and the at least one magnetic sensor is/are fixed to the elastomer at a respective second location or plurality of locations, such that the or each magnetic sensor is located in magnetic proximity to a respective said magnet, and wherein the controller is operable: to receive sensor data from the sensor output of the or each magnetic sensor; to process the received sensor data in dependence on the first and second locations or plurality of locations to determine a positional relationship between the or each magnet and the respective magnetic sensor; and to compute a deformation of the elastomer in dependence on the determined positional relationship between the or each magnet and the respective magnetic sensor. The present invention has particular application to soft robotics and closed loop control thereof.

A force sensor has a sensing system including a target piece and a sensing element, configured to provide changes of a magnetic field, being generated by motion of the target piece. The sensing element senses these changes and provides a signal representative of the position of the target piece. An integrated circuit with processing means can process signals from the sensing element. A semiconductor package includes at least the integrated circuit. A flexible piece includes the target, and it is attached to the semiconductor package. The attachment area between the flexible piece and the semiconductor package does not extend beyond the top projection, or outline, of the semiconductor package. The flexible piece receives a force stimulus, so that upon exerting a force on the flexible piece, the displacement of the target piece with respect to the surface of the semiconductor package can be sensed by the sensing element.

Provided are a device, a system and a method for acquiring a force information based on a bionic structure, including: a force information acquisition layer and a magnetic field signal acquisition chip; wherein a permanent magnet is embedded in the force information acquisition layer; wherein the force information acquisition layer has an elastic structure configured to generate a deformation corresponding to a first force information of a force after being subjected to the force, so that the permanent magnet moves with the deformation to generate a magnetic field signal corresponding to the force information; wherein the magnetic field signal acquisition chip is arranged in parallel with the force information acquisition layer, and is configured to acquire the magnetic field signal and convert the magnetic field signal into an electrical signal.

A force sensor includes a strain body including a base portion, a displacement portion configured to make a displacement relative to the base portion under external force, and an elastic connection portion configured to elastically connect the base portion and the displacement portion, a board including a detection unit configured to detect the displacement of the displacement portion relative to the base portion in a first direction, and an interposed member interposed between the strain body and the board, the interposed member including an extending portion extending in a second direction intersecting a surface of the board and the first direction.

A force sensor provided with a base and a table with legs mounted on the base. The table is movable with respect to the base by a force applied to the table, and the sensor is further provided with a measuring instrument or instruments for measuring a deflection of one or more of the legs, which deflection represents said force applied to the table.

A force sensor provided with a base and a table with legs mounted on the base. The table is movable with respect to the base by a force applied to the table, and the sensor is further provided with a measuring instrument or instruments for measuring a deflection of one or more of the legs, which deflection represents said force applied to the table.

This invention relates to force/torque sensor and more particularly to multi-axis force/torque sensor and the methods of use for directly teaching a task to a mechatronic manipulator. The force/torque sensor has a casing, an outer frame forming part of or connected to the casing, an inner frame forming part of or connected to the casing, a compliant member connecting the outer frame to the inner frame, and one or more measurement elements mounted in the casing for measuring compliance of the compliant member when a force or torque is applied between the outer frame and the inner frame.

This invention relates to force/torque sensor and more particularly to multi-axis force/torque sensor and the methods of use for directly teaching a task to a mechatronic manipulator. The force/torque sensor has a casing, an outer frame forming part of or connected to the casing, an inner frame forming part of or connected to the casing, a compliant member connecting the outer frame to the inner frame, and one or more measurement elements mounted in the casing for measuring compliance of the compliant member when a force or torque is applied between the outer frame and the inner frame.

A force measurement assembly is disclosed herein. The force measurement assembly includes a top component, the top component having a top surface for receiving at least one portion of the body of the subject; a single force transducer supporting the top component, the single force transducer configured to sense one or more measured quantities and output one or more signals that are representative of forces and/or moments being applied to the top surface of the top component by the subject; and a base component disposed underneath the single force transducer, the base component configured to be disposed on a support surface.

The present invention relates to a method and an arrangement for measuring a force and/or moment on a machine element extending along an axis, using the inverse magnetostrictive effect. The machine element has a magnetization region for magnetization, this region fully encompassing the axis. The arrangement includes at least one first magnetic sensor and one second magnetic sensor, each being designed to measure individually a first and a second direction component of a magnetic field that is caused by the magnetization and by the force and/or the moment. The direction components that can be measured using the first magnetic sensor have differing orientations. Likewise, the direction components that can be measured using the second magnetic sensor have differing orientations. The first magnetic sensor and the second magnetic sensor are arranged around the axis at different peripheral positions.