In some implementations, a controller may cause a robotic arm connector, of the robotic arm, to be connected to a first compartment connector of a passenger compartment of an amusement ride. The controller may cause a second compartment connector, of the passenger compartment, to be disconnected from a first structure connector of a first support structure. The controller may transport the passenger compartment from the first support structure to a second support structure after causing the second compartment connector to be disconnected from the first structure connector.

A robot is described. The robot includes a propulsion system, a wireless interface, a memory device, and a processor configured to execute instructions stored in the memory device. The instructions, when executed by the processor, cause the processor to determine, based upon a communication received at the wireless interface, to perform a celebration associated with a trigger event that has occurred on a casino floor and in response to determining to perform the celebration, control the propulsion system to cause the robot to perform at least a portion of the celebration.

A robot manipulating system includes a game terminal having a game computer, a game controller, and a display configured to display a virtual space, a robot configured to perform a work in a real space based on robot control data, and an information processing device configured to mediate between the game terminal and the robot. The information processing device supplies game data associated with a content of work to the game terminal, acquires game manipulation data including a history of an input of manipulation accepted by the game controller while a game program to which the game data is reflected is executed, converts the game manipulation data into the robot control data based on a given conversion rule, and supplies the robot control data to the robot.

A feeling deduction unit 100 deduces a user's feeling. An internal state management unit 110 manages an internal state of an object and an internal state of a user on the basis of the deduced user's feeling. An action management unit 120 determines an action of the object on the basis of the internal state of the object. An output processing unit 140 causes the object to perform the action determined by the action management unit 120.

A robotic animal puzzle is assembled from flat board pieces. The robotic animal includes a head portion. The head portion includes a neck group, a torso portion, including a holder 15 for an optional battery, multiple leg portions, and a tail portion. Those pieces and groups are connected using either interlocking mechanisms or flexible linkages to form the robotic animal-shaped puzzle. Movement and gestures may be controlled by an externally connected processor powered by an on-board battery pack. A pull and drag mechanism is provided to conveniently tune the center of mass. Slots allow the screw that connects the battery holder to slide.

A content selling service operating device according to an embodiment of the present disclosure comprises: a communication interface connected to a terminal of a user to receive, from the terminal, a request for purchasing action robot content corresponding to multimedia content; an action robot content generator configured to generate action robot content including motion data for the multimedia content; and a processor configured to control the communication interface to transmit the generated action robot content to an action robot or the terminal of the user.

A robotic system includes a multi-sectional show robot. The multi-sectional show robot includes a primary robot with a controller and one or more sensors. The one or more sensors are configured to acquire feedback indicative of an environment surrounding the primary robot. The multi-sectional show robot also includes a secondary robot configured to removably couple to the primary robot to transition the multi-sectional show robot between a disengaged configuration, in which the primary robot is decoupled from the secondary robot, and an engaged configuration, in which the primary robot is coupled to the secondary robot. The controller is configured to operate the primary robot based on the feedback and a first control scheme with the multi-sectional show robot in the disengaged configuration and to operate the primary robot based on a second control scheme with the multi-sectional show robot in the engaged configuration.

A device including a processor configured to: receive sensor measurements; determine a viewer position based on the received sensor measurements; generate a control signal based on the viewer position; and determine a view based on the viewer position.

Methods and systems are provided for providing real world assistance by a robot utility and interface device (RUID) are provided. A method provides for identifying a position of a user in a physical environment and a surface within the physical environment for projecting an interactive interface. The method also provides for moving to a location within the physical environment based on the position of the user and the surface for projecting the interactive interface. Moreover, the method provides for capturing a plurality of images of the interactive interface while the interactive interface is being interacted with by the use and for determining a selection of an input option made by the user.

An information processing device is provided including a recognition unit that executes recognition processing used to determine an action of an autonomous operating body on the basis of sensor information collected, in which the recognition unit includes a feedback recognizer that recognizes feedback from a user on behavior executed by the autonomous operating body, and the feedback recognizer recognizes a degree of the feedback on the basis of recognition results of a contact action and a non-contact action by the user for the autonomous operating body.