In a robotic surgical system, a controller is configured or programmed to change at least one of a level of an operation start assisting force, a level of an in-operation assisting force, or a level of a braking force based on a level change operation of an operator received by a level change receiver.

In a robotic surgical system, a controller is configured or programmed to change at least one of a level of an operation start assisting force, a level of an in-operation assisting force, or a level of a braking force based on a level change operation of an operator received by a level change receiver.

A method for controlling a robot device using a portable terminal including a touchscreen is provided. The method includes displaying an enable button in a first area of the touchscreen, displaying an emergency stop button in a second area of the touchscreen, displaying a plurality of robot control buttons in a third area of the touchscreen, in response to simultaneously receiving from a user an input on the first area and an input on the third area, transmitting a robot control signal to a control device configured to control the robot device, and in response to receiving an input from the user on the second area, transmitting an emergency signal to the control device.

A method for controlling a robot device using a portable terminal including a touchscreen is provided. The method includes displaying an enable button in a first area of the touchscreen, displaying an emergency stop button in a second area of the touchscreen, displaying a plurality of robot control buttons in a third area of the touchscreen, in response to simultaneously receiving from a user an input on the first area and an input on the third area, transmitting a robot control signal to a control device configured to control the robot device, and in response to receiving an input from the user on the second area, transmitting an emergency signal to the control device.

A robot system including a robot that is controlled by a robot controller and a wireless communication device that is worn or carried by a person present in the periphery of the robot. The wireless communication device has a sensor capable of detecting an acceleration, the wireless communication device is configured to transmit information related to the acceleration to the robot controller of the robot in a state in which the wireless communication device is not operated by the person, and the robot controller performs operation restriction of the robot when the acceleration exceeds a threshold.

Measures for use in controlling a robot. At an electronic user device, data representative of an environment of the robot is received from the robot. The received data indicates a location of at least one moveable object in the environment. In response to receipt of the representative data, a representation of the environment of the robot is displayed on a graphical display of the electronic user device. Input is received from a user of the electronic user device indicating a desired location for the at least one moveable object in the environment of the robot. In response to receipt of the user input, control data is transmitted to the robot. The control data is operable to cause the robot to move the at least one object to the desired location in the environment of the robot.

Measures for use in controlling a robot. At an electronic user device, data representative of an environment of the robot is received from the robot. The received data indicates a location of at least one moveable object in the environment. In response to receipt of the representative data, a representation of the environment of the robot is displayed on a graphical display of the electronic user device. Input is received from a user of the electronic user device indicating a desired location for the at least one moveable object in the environment of the robot. In response to receipt of the user input, control data is transmitted to the robot. The control data is operable to cause the robot to move the at least one object to the desired location in the environment of the robot.

The foodstuff assembly system can include: a robot arm, a frame, a set of foodstuff bins, a sensor suite, a set of food utensils, and a computing system. The system can optionally include: a container management system, a human machine interface (HMI). However, the foodstuff assembly system 100 can additionally or alternatively include any other suitable set of components. The system functions to enable picking of foodstuff from a set of foodstuff bins and placement into a container (such as a bowl, tray, or other foodstuff receptacle). Additionally or alternatively, the system can function to facilitate transferal of bulk material (e.g., bulk foodstuff) into containers, such as containers moving along a conveyor line.

The foodstuff assembly system can include: a robot arm, a frame, a set of foodstuff bins, a sensor suite, a set of food utensils, and a computing system. The system can optionally include: a container management system, a human machine interface (HMI). However, the foodstuff assembly system 100 can additionally or alternatively include any other suitable set of components. The system functions to enable picking of foodstuff from a set of foodstuff bins and placement into a container (such as a bowl, tray, or other foodstuff receptacle). Additionally or alternatively, the system can function to facilitate transferal of bulk material (e.g., bulk foodstuff) into containers, such as containers moving along a conveyor line.

A robot teaching device includes: an image acquisition device configured to acquire, as a moving image, a distance image representing distance information of an imaging object, or a two-dimensional image of the imaging object; a trajectory detection section configured to detect a movement trajectory of an operator's hand depicted as the imaging object in the moving image by using the moving image; an identification section configured to identify whether the detected movement trajectory represents a linear movement or a rotational movement; and a command generation section configured to output a command for translating a predetermined movable part of the robot based on the movement trajectory when the movement trajectory is identified as representing a linear movement, and to output a command for rotating the predetermined movable part based on the movement trajectory when the movement trajectory is identified as representing a rotational movement.