If an interaction target includes a child and adult, if a remaining power amount is less than or equal to a first threshold, and if an interaction amount is greater than or equal to a second threshold, a robot asks the adult if the adult allows the robot to move to a charger. If the target includes the child and adult, if the remaining power amount is less than or equal to the first threshold, and if the interaction amount is less than the second threshold, the robot asks the child if the child allows the robot to move to the charger. If the target includes only the child, if the remaining power amount is less than or equal to the first threshold, and if the interaction amount is greater than or equal to the second threshold, the robot moves to the charger. If the target includes only the child, if the remaining power amount is greater than the first threshold, and if the interaction amount is greater than or equal to the second threshold, the robot stops interacting with the child.

A display apparatus, which outputs a representation of content data, includes a communicator that obtains from a content distribution apparatus the content data and robot operation data used for operating a robotic device, a storage that stores the content data and the robot operation data, and a controller that transmits the robot operation data to the robotic device connected the display apparatus when the display apparatus outputs the representation of the content data.

Disclosed is an apparatus for running a physical software coding training book. The apparatus includes: a toy control unit being connected to a Micro Control Unit (MCU) via serial communication and controlling motion of a toy through the MCU; a training content processing unit being connected to the toy control unit via HyperText Transfer Protocol (HTTP) and providing training content written in HyperText Markup Language (HTML), the training content including motion control commands for the toy; and a physical software processing unit capable of directly writing block coding-based physical software by embedding a block code editor into the training content and performing control of the toy.

An artificial intelligence (AI) robot capable of performing imitation learning of an imitation target to be imitated may collect olfactory information of the imitation target and motion information about a motion executed by the imitation target according to the olfactory information for imitation learning, and may perform machine learning. When learned olfactory information is detected by the AI robot, the AI robot may be caused to execute the motion information about the motion executed by the imitation target. Accordingly, an imitation robot may imitate the imitation target based on olfactory information, in addition to sound and image information.

A robotic motorcycle may include a chassis, driven wheel assemblies, and a control loop stabilizer. The driven wheel assemblies may each include a wheel and a bevel gear. The wheel may be mounted to an axle for rotation about a drive axis and steering about a substantially vertical steering axis. A steer shaft may connect the axle to a steer assembly that controls rotation of the steer shaft about the steering axis to steer the wheel. A drive shaft may be coupled to a drive assembly that controls rotation of the drive shaft about the steering axis. The bevel gear may couple the other end of the drive shaft to the axle so that rotation of the drive shaft about the steering axis controls rotation of the wheel about the drive axis. The control loop stabilizer may determine parameters for the drive and steer assemblies to balance the motorcycle.

A display apparatus, which outputs a representation of content data, includes a communicator that obtains from a content distribution apparatus the content data and robot operation data used for operating a robotic device, a storage that stores the content data and the robot operation data, and a controller that transmits the robot operation data to the robotic device connected the display apparatus when the display apparatus outputs the representation of the content data.

A robotic motorcycle may include a chassis, driven wheel assemblies, and a control loop stabilizer. The driven wheel assemblies may each include a wheel and a bevel gear. The wheel may be mounted to an axle for rotation about a drive axis and steering about a substantially vertical steering axis. A steer shaft may connect the axle to a steer assembly that controls rotation of the steer shaft about the steering axis to steer the wheel. A drive shaft may be coupled to a drive assembly that controls rotation of the drive shaft about the steering axis. The bevel gear may couple the other end of the drive shaft to the axle so that rotation of the drive shaft about the steering axis controls rotation of the wheel about the drive axis. The control loop stabilizer may determine parameters for the drive and steer assemblies to balance the motorcycle.

The present invention relates to a robot (1) configured to exhibit a robot identity and/or a robot personality at least partly through execution of computer-readable program code. The robot comprises a robot head (3) configured for connection to a face part (9; 9A, 9B) including a display surface, the robot being configured to cause the display of a face image depicting a face of said robot on said display surface. The robot head (3) is configured for detachable connection to said face part to allow detachable connection of different face parts (9; 9A, 9B) to the robot head, and the robot (1) is configured to automatically adapt said robot identity and/or said robot personality based on the face part currently being connected to the robot head (3). This allows a user of the robot to change character of the robot, i.e. to change the robot identity and/or personality, by connection of different face parts to the robot head.

If an interaction target includes a child and adult, if a remaining power amount is less than or equal to a first threshold, and if an interaction amount is greater than or equal to a second threshold, a robot asks the adult if the adult allows the robot to move to a charger. If the target includes the child and adult, if the remaining power amount is less than or equal to the first threshold, and if the interaction amount is less than the second threshold, the robot asks the child if the child allows the robot to move to the charger. If the target includes only the child, if the remaining power amount is less than or equal to the first threshold, and if the interaction amount is greater than or equal to the second threshold, the robot moves to the charger. If the target includes only the child, if the remaining power amount is greater than the first threshold, and if the interaction amount is greater than or equal to the second threshold, the robot stops interacting with the child.

If an interaction target includes a child and an adult, if a remaining power amount is less than or equal to a first threshold, and if an interaction amount is greater than or equal to a second threshold, a robot requests the adult to move the robot to a charger. If the target includes the child and the adult, if the remaining power amount is less than or equal to the first threshold, and if the interaction amount is less than the second threshold, the robot requests the child to move the robot to the charger. If the target includes only the child, if the remaining power amount is greater than the first threshold, and if the interaction amount is greater than or equal to the second threshold, the robot stops interacting with the child.