In an embodiment, a method for handling an order includes determining a plurality of ingredients based on an order, received from a user over a network, for a location having a plurality of robots. The method further includes planning at least one trajectory for at least one robot based on the plurality of ingredients and utensils available at the location, and proximity of each ingredient and utensil to the at least one robot. Each trajectory can be configured to move one of the plurality of ingredients into a container associated with the order. In an embodiment, the method includes executing the at least one trajectory by the at least one robot to fulfill the order. In an embodiment, the method includes moving the container to a pickup area.

The present invention is applied to the human-robot interaction field, and provides a method and an apparatus for interaction between a robot and a user; the method includes: determining an original direction where a voice signal is generated upon receiving a voice signal; adjusting a robot from a current direction to the original direction, and capturing a picture corresponding to the original direction; detecting whether a human face exists in the picture; when a human face exists in the picture, recognizing whether a user corresponding to the human face is a legal user; and when the user corresponding to the human face is a legal user, interacting with the legal user. The method can improve the accuracy of instruction execution of the robot.

The present technology relates to a transport device, a transport method, a program, and an information processing device that can prevent damage to the content of luggage during transportation.

The transport device includes a luggage characteristic estimation unit that estimates luggage characteristics including at least one of fragility of a content of luggage and packaging quality of the luggage based on at least one of change in center of gravity due to movement of the luggage, vibration characteristics of the luggage, and characteristics of the sound generated from the luggage due to the movement of the luggage. The present technology can be applied to, for example, a robot that transports luggage.

There is provided an information processing apparatus and an information processing method that can provide more useful information for an action plan of an autonomous mobile body, the information processing apparatus including an action recommendation unit configured to present a recommended action recommended to an autonomous mobile body, to the autonomous mobile body that performs an action plan based on situation estimation. The action recommendation unit determines the recommended action on the basis of an action history collected from a plurality of the autonomous mobile bodies, and on the basis of a situation summary received from a target autonomous mobile body that is a target of recommendation. The information processing method includes presenting, by a processor, a recommended action recommended to an autonomous mobile body, to the autonomous mobile body that performs an action plan based on situation estimation.

A cover for an automated robot includes elastic sheets that are adhered to each other in a geometry. The geometry is configured to allow the elastic sheets to expand and contract while the automated robot moves within its range of motion. The elastic sheets are attached to the automated robot by elasticity of the elastic sheets. A first group of the elastic sheets forms an elastic collar configured to grip the automated robot at a distal end and a proximal end of the cover in a non-breakable manner such that during operation of the robot, the elastic sheets hold their elasticity and integrity without breaking.

A robotic device includes a kinematic chain of a plurality of components, movable relative to each other; a sensor device configured to capture a force and/or moment exerted on at least one of the mobile components; a control device configured to control a movement of the at least one of the mobile components, in the direction of the force that is exerted, as a function of the force captured by the control device and/or of the moment captured by the control device; and a first capture device coupled to the control device and provided for the purpose of contactlessly capturing an operating action of an operator. In a normal operating mode, the control device is configured to specify a mobility of at least one of the mobile components as a function of the captured operating action, improving accuracy and reliability of the device in interaction with a human operator.

A robot system includes a robot including an arm disposed in a first space , an operator that receives an operation on a test instrument in a second space , and a controller that operates the test instrument by controlling the robot in response to the received operation.

A robotic dock for video conferencing is described. In some embodiments, a dock may be configured to receive an Information Handling System (IHS), the dock comprising: a motor; a microcontroller coupled to the motor; and a memory coupled to the microcontroller, the memory having program instructions stored thereon that, upon execution by the microcontroller, cause the dock to control the motor to rotate the IHS toward or away from a participant of a video conference.

An upper limb motion support apparatus and an upper limb motion support system which are capable of significantly improving the enhancement of an operator's work efficiency and the reduction of their workload are proposed. A controller which causes an articulated arm and an end effector to perform three-dimensional motion according to the operator's intention based on a biological signal acquired by a biological signal detection unit causes the articulated arm and the end effector to perform cooperative motion in conjunction with the operator's upper limb motion by referring to content recognized by an upper limb motion recognition unit.

A robot apparatus includes a body part; a head part rotatably connected to the body part and having three rotational degrees of freedom; a driving device including a plurality of motors configured to provide rotational force to the head part in a pitch direction, a roll direction, and a yaw direction to drive movement of the head part; a microphone sensor configured to detect a voice of a user; and a processor configured to perform a voice recognition processing on the voice detected from the microphone sensor to obtain a recognition result, determine interaction information based on the recognition result, and control the driving device to perform a rotation operation on the head part corresponding to the interaction information.