Gripper pads are provided for use, augmentation or retrofitting in a robot manipulator. The gripper pads distinguish a dry adhesive layer with dry adhesive wedges that would interface with an object that is desired to be manipulated. The plurality of dry adhesive wedges is organized in a pattern such that the pattern has at least two different orientations for the direction of the plurality of wedges. The gripper pads further distinguish a sensor array underneath the dry adhesive layer. The data obtained from the sensor array provides an estimate of the shape and size of the contact between the gripper pad and the object when the dry adhesive layer is in contact with the object.

To provide an industrial robot and a method of operating the same which are capable of appropriately handling, when an abnormal state occurs during an automatic operation of the robot, the abnormal state without significantly degrading the work efficiency. The industrial robot includes a robot main body (1) having a robot arm, a robot control device (7) configured to control operation of the robot main body (1) and an abnormal state detecting device (8) configured to detect abnormality in a work state of the robot main body (1). The robot control device (7) includes an automatic operation performing means (9) for controlling the operation of the robot main body (1) to perform an automatic operation based on a given operation program, and an automatic operation correcting means (10) for correcting the operation of the robot main body (1) in the automatic operation based on a manual control performed by an operator according to a detection result of the abnormal state detecting device (8).

A robot system includes a robot including a tactile sensor and a hand having the tactile sensor, a tactile information generator configured to generate tactile information defined by a pressure distribution based on pressures detected by a plurality of pressure sensors and spatial positions of the plurality of pressure sensors, and output the tactile information, a manipulator configured to make an operator sense the pressure distribution according to the tactile information outputted from the tactile information generator, and when the operator manipulates the manipulator, output manipulating information according to the manipulation, and a robot controller configured to control operation of the hand of the robot according to the manipulating information outputted from the manipulator.

Robot main body having robotic arm, remote control device including robotic arm operational instruction input part for operator to control by touching, to input operational instruction for robotic arm, and contactless action detecting part configured to detect contactless action including at least one given operation instructing action of operator, and control device communicably connected to remote control device and configured to control operation of robot main body, are provided. Control device includes memory part configured to store operational instruction content data defining an operation mode of robot main body corresponding to at least one operation instructing action, operational instruction content identifying module to identify operation mode of robot main body of the operation instructing action detected by contactless action detecting part based on operational instruction content data, and motion controlling module configured to control operation of robot main body based on operation mode identified by operational instruction content identifying module.

A robot system includes a robotic arm having an end effector configured to perform a work to a work object, a memory part storing information that causes the end effector to move as scheduled route information, a motion controller configured to operate the robotic arm by using the scheduled route information to move the end effector, a route correcting device configured to generate, by being manipulated, manipulating information to correct a route of the end effector during movement, a camera configured to image the work object, an image generator configured to generate a synthesized image by synthesizing a scheduled route of the end effector obtained from the scheduled route information with a captured image sent from the camera, and a monitor configured to display the synthesized image.

An information sharing system between a plurality of robot systems includes a plurality of robot systems, communicatably connected with each other through a network, and configured to be capable of presetting a given operation of a robot and repeating a correction of the operation, and a storage device, connected with the network and configured to store corrected information containing corrected operating information that is operating information for causing the robot to execute a given operation corrected in at least one of the robot systems. Each of the plurality of robot systems shares the corrected information stored in the storage device and operates the robot based on the sharing corrected information.

A soft robot having an integrated electrical component includes an expandable or collapsible body, the body comprising an inlet that is configured to communicate with a fluid source and a flexible strain limited layer secured to a portion of the expandable or collapsible body, wherein the strain limited layer includes at least one electrical component.

In a remote control robot system including a plurality of slave arms, slave arm has a plurality of control modes of an automatic mode in which slave arm is operated based on a task program, a manual mode in which slave arm is operated based on an operator's operation received by a master device, and correctable automatic mode in which slave arm is operated based on task program while operation is sequentially corrected by the operator's operation received by master device. Operation sequence information includes an automatic part in which slave arm performs a work in the automatic mode, and a selected part in which slave arm performs a work in one selected from plurality of control modes, and the selected parts do not overlap with each other in time among the plurality of slave arms. Based on the operation sequence information, the plurality of slave arms are operated.

A robotic gripper (end effector) for an arm-type robotic system includes a hierarchical sensor architecture that utilizes a central data processing circuit to generate rich sensory tactile data in response to pressure, temperature, vibration and/or proximity sensor data generated by finger-mounted sensor groups in response to interactions between the robotic gripper and a target object during robotic system operations. The rich sensory tactile data is used to generate feedback signals that directly control finger actuators and/or tactile information that is supplied to the robotic system's control circuit. Sensor data processing circuits are configured to receive single-sensor data signals in parallel from the sensor groups, and to transmit corresponding finger-level sensor data signal on a serial bus/signal line to the central data processing circuit. Each sensor group and an associated sensor data processing circuit are disposed on a PCB structure and mounted on a contact portion of an associated gripper finger.

A control device controls the arm such that a first contacting operation of setting an object to a first orientation and bringing the object into contact with an inserted object is performed, and an inserting operation of setting the object to a second orientation different from the first orientation and inserting the object by moving the object in a first direction is performed. Between the first contacting operation and the inserting operation, the control device performs a second contacting operation of bringing the object and the inserted object into contact in a portion different from a contact portion in the first contacting operation by performing force control such that a component of a target force in a second direction orthogonal to the first direction is set to a value greater than 0 based on an output from the force sensor at an orientation at which the object is tilted.