A remote-control manipulator system which includes a manipulator, a slave arm installed in a workspace and configured to perform a series of works comprised of a plurality of processes, a situation information acquisition device configured to acquire situation information indicating a situation of the slave arm, an environment reproducing device configured to reproduce, in a space where the manipulator is installed, environment information relating to an environment in the workspace, and a control device. The control device is configured to cause the environment reproducing device to reproduce the environment information corresponding to the situation information outputted from the situation information acquisition device.

Remote control robot system includes a master device, slave arm having plurality of control modes including automatic and manual mode, control device configured to operate slave arm, an entering-person sensing device configured to detect entering person into operational area of slave arm, entering-person identifying information acquisition device configured to acquire entering-person identifying information for identifying whether entering person is operator who carries master device, and operation regulating device configured to regulate operation of slave arm based on information acquired from entering-person sensing device and information acquisition device. In automatic mode, operation regulating device regulates operation of slave arm when entering person is detected. In manual mode, operation regulating device allows operation of slave arm to continue when entering person is detected and entering person is operator, and regulates operation of the slave arm when entering person is other than operator.

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.

Plurality of robot main bodies a remote control device including contactless action detecting part configured to detect contactless action including at least one given operation instructing action by operator, and control device communicably connected to remote control device and configured to control operations of plurality of robot main bodies, are provided. Control device includes memory part configured to store operational instruction content data defining operation mode of robot main body corresponding to the at least one operation instructing action, operational instruction content identifying module configured to identify operation mode of robot main body corresponding to one of operation instructing action detected by contactless action detecting part based on operational instruction content data, and motion controlling module configured to control operation of at least one given robot main body among plurality of robot main bodies based on operation mode identified by operational instruction content identifying module.

A robot system includes a robot including a tactile sensor and a hand having the tactile sensor, a robot controller configured to control operation of the hand of the robot according to robot manipulating information, a manipulator, a tactile information processor configured to generate tactile information defined by a pressure distribution based on pressures detected by at least the plurality of pressure sensors and spatial positions of the plurality of pressure sensors, convert the tactile information into sensible tactile information that is sensible by the operator, and output the sensible tactile information, a sensible tactile information presenting part configured to present to the operator the sensible tactile information outputted from the tactile information processor.

A robot system includes a robot including a robot arm, and a first hand and a second hand which are connected to the robot arm and which are provided to independently rotate about an axis on the robot arm; and a controller configured to control an operation of the robot. When the robot arm and the first hand are operated so that the first hand reaches a predetermined target position, teaching values for the first hand in the target position is generated. When the first hand and the second hand are rotated based on the teaching values for the first hand, a relative error in rotation amount around the axis between the first hand and the second hand is acquired and stored in a memory. Teaching values for the second hand is generated from the teaching values for the first hand based on the acquired relative error.

A displaying apparatus includes a virtual environment screen displaying a state of a robot identified, and a parameter setting screen numerically displaying the position and orientation data. When a changing a part of the position and orientation data are performed through the operating input unit, the part of the position and orientation data is changed according to the content of the operation and input. Position and orientation is calculated to identify the position or orientation of each part of the robot, based on the changed part of the position and orientation data, and new position and orientation data is calculated based on the position and orientation calculation. The content of virtual display on the virtual environment screen or numeric value display on the parameter setting screen of the displaying apparatus is updated, based on the changed part of position and orientation data, and the new position and orientation data.

A robot control device includes an operation control unit which controls the operation of a robot based on mechanism data. The mechanism data includes a parameter for calculating the relationship between an angle in a joint part of the robot and a distal end position of the robot. The control device also includes an acquisition unit which acquires a plurality of predetermined sets of mechanism data, a selection unit which selects one set of mechanism data from the plurality of sets of mechanism data, and a switching operation setting unit that sets the operation of the robot when changing the mechanism data.

A robot program modification system comprises a robot control apparatus and a program modification apparatus. The robot control apparatus has an information acquisition unit which executes an operation program and acquires robot detection information from a robot, and a communication unit which transmits the robot detection information to the program modification apparatus. The program modification apparatus has a simulation unit which performs simulation on the basis of the operation program, and a program modification unit which modifies the operation program on the basis of the robot detection information so that a result of the simulation satisfies an evaluation basis decided in advance.

A device to correct a teaching position of a robot includes an orientation change data acquisition section to acquire orientation change data indicating a change amount in an orientation of a workpiece with respect to the robot due to a change of an arrangement, based on first and second position data of the robot, a third position data acquisition section to acquire third position data of the robot when a hand-tip portion is arranged in a predetermined positional relationship with an index in a state where the hand-tip portion is arranged at a second orientation which is corrected by using the orientation change data, and a position change data acquisition section to acquire position change data indicating a change amount in a position of the workpiece with respect to the robot due to the change of the arrangement, based on the first position data and the third position data.