A mobile robot includes a driver configured to provide a traveling function, a body disposed at an upper side of the driver, a concave portion recessed inward from a surface of the body, a vent hole formed at an upper side of the concave portion, and a guide inclined surface formed at a lower side of the concave portion. During traveling of the mobile robot, the mobile robot induces inflow of air so that the body can be cooled.

A guide robot can include a travel part to move the guide robot, a touch screen and a camera, a sensor to detect an approach of a user, and a voice reception part to receive a voice. The guide robot further includes a controller to display at least one digital signage while the guide robot is traveling, in response to detecting the approach of the user, stop the traveling of the guide robot and transition the camera from a deactivated state to an activated state, and detect a face and a face angle of the user. Also, in response to determining that the user intends to use the guide robot, the controller can trigger a voice conversation mode by activating the voice reception part, stopping the display of the at least one digital signage and outputting usage guide information for the voice conversation mode.

Provided are a reception apparatus, a reception system, a reception method, and a storage medium that can naturally provide a personal conversation in accordance with a user without requiring the user to register the personal information thereof in advance. A disclosure includes a face information acquisition unit that acquires face information of a user; a face matching unit that matches, against face information of one user, the face information registered in a user information database in which user information including the face information of the user and the reception information is registered; and a user information management unit that, when a result of matching of the face information performed by the face matching unit is unmatched, registers the user information of the one user to the user information database.

Systems, apparatus, and methods are described for robotic learning and execution of skills. A robotic apparatus can include a memory, a processor, sensors, and one or more movable components (e.g., a manipulating element and/or a transport element). The processor can be operatively coupled to the memory, the movable elements, and the sensors, and configured to obtain information of an environment, including one or more objects located within the environment. In some embodiments, the processor can be configured to learn skills through demonstration, exploration, user inputs, etc. In some embodiments, the processor can be configured to execute skills and/or arbitrate between different behaviors and/or actions. In some embodiments, the processor can be configured to learn an environmental constraint. In some embodiments, the processor can be configured to learn using a general model of a skill.

A banking automation system comprising a robot for robotically assisting a plurality of individuals in retrieval and storage of goods deposited in a funk, wherein during said retrieval and storage of goods by the robot: (a) each of the plurality of the individuals maintains privacy by being placed in a private location, (b) the plurality of the individuals are able to retrieve and store goods simultaneously, and (c) identification of each of the plurality of the individuals is verified biometrically.

A robot control system includes: plural robots that are disposed in a region; a generating unit that divides the region into plural small regions and generates disposition position information for specifying disposition positions of each of the plural robots in the region based on a value indicating a use possibility of a robot in each small regions; and a disposition unit that disposes the plural robots in the region in accordance with the disposition position information generated by the generating unit.

The disclosure relates to an intelligent robot with different accouterments. The intelligent robot includes a robot body and a number of accouterments working together with the robot body. The robot body includes a central control module and a number of functional modules corresponding to the number of accouterments. The number of accouterments can be defined in different types and functions. Thus, the intelligent robot can display different functions and provide value-added service.

Disclosed is a home service robot, comprising an intelligent control system, a mechanical structure and a remote control terminal. The intelligent control system is mounted in the mechanical structure, and the intelligent control system is controlled by the remote control terminal, to cause the mechanical structure to act correspondingly. The mechanical structure comprises a head (1), a body (2), a chassis (7), a chassis suspension protection and movement mechanism and two movable moving-wing mechanisms (4). The head (1) is mounted at an upper end of the body (2), and the body (2) is mounted on the chassis (7); the two moving-wing mechanisms (4) are symmetrically mounted on two sides of the body (2), and the chassis suspension protection and movement mechanism is mounted on the bottom of the chassis (7). The robot has multiple functions.

An embodiment provides a robot including an image photographing unit configured to photograph image information about boarding-scheduled persons located in a gate region differing from a set boarding gate region of a flight-scheduled airplane, an image recognizer configured to perform image processing on the image information to recognize a boarding person matching a facial image of a ticket-issued person of the flight-scheduled airplane among the boarding-scheduled persons, and a controller configured to, when the boarding person is recognized, output movement path information so that the boarding person moves to the boarding gate region.

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.