Embodiments of a method (e.g., for operating a robotic device such as a dog device, etc.) can include: receiving one or more inputs (e.g., sensor input data, etc.) at a dog device (e.g., at one or more sensors of the dog device; a robotic dog device; etc.) from one or more users and/or other suitable entities (e.g., additional dog devices; etc.); determining one or more events (and/or a lack of one or more events), such as based on the one or more inputs (and/or a lack of one or more inputs); processing (e.g., determining, implementing, etc.) one or more scenes based on the one or more events (and/or lack of one or more events); and/or performing one or more output actions with the dog device, based on the one or more scenes (e.g., individual scenes; scene flows; etc.).

An action robot includes a connector configured to connect a body to a movable part, a joint including a rotational body fastened to the movable part, a joint shaft provided to protrude from the rotational body, and a joint shaft supporting part provided in the connector to have a ring shape, the joint shaft being inserted into the joint shaft, a wire connected to the movable part to pull the movable part in a direction in which the joint is bent, a wire path provided in the connector, the wire path including an inlet which is disposed in the body and through which the wire passes, and a supporter disposed in the body to support the wire. An upper end of the supporter overlaps the inlet in a horizontal direction.

A system and method for a therapeutic apparatus that includes an external casing of a first therapeutic apparatus, wherein the external casing comprises of a plush body, the external casing comprising at least one compartment; a therapeutic module system that comprises of a set of interaction devices and a wireless communication system, wherein the therapeutic module system may be removably oriented into the at least one compartment; the set of interaction devices comprising of: sensing inputs that comprise of a auditory sensing system, a haptic sensing system, an olfaction sensing system, and other biosensing systems, and output systems that comprise of at least an auditory feedback and haptic feedback systems; and a processing system that comprises configuration to assess the state of a subject through the sensing inputs and control the output systems in response to the sensing inputs.

A system and method for a therapeutic apparatus that includes an external casing of a first therapeutic apparatus, wherein the external casing comprises of a plush body, the external casing comprising at least one compartment; a therapeutic module system that comprises of a set of interaction devices and a wireless communication system, wherein the therapeutic module system may be removably oriented into the at least one compartment; the set of interaction devices comprising of: sensing inputs that comprise of a auditory sensing system, a haptic sensing system, an olfaction sensing system, and other biosensing systems, and output systems that comprise of at least an auditory feedback and haptic feedback systems; and a processing system that comprises configuration to assess the state of a subject through the sensing inputs and control the output systems in response to the sensing inputs.

In an aspect, a toy assembly is provided and includes a toy assembly that includes a housing, a toy character inside the housing, and a breakout member that is operable to impact the housing so as to break the housing to expose the toy character. The housing includes a breakage zone for impact and breakage by the breakout member. In the breakage zone, the housing is formed from a polymer composition that includes a base polymer, an organic acid metal salt; and an inorganic filler.

In an aspect, a toy assembly is provided and includes a toy assembly that includes a housing, a toy character inside the housing, and a breakout member that is operable to impact the housing so as to break the housing to expose the toy character. The housing includes a breakage zone for impact and breakage by the breakout member. In the breakage zone, the housing is formed from a polymer composition that includes a base polymer, an organic acid metal salt; and an inorganic filler.

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.

In an aspect, a toy assembly is provided, and includes a housing and a toy vehicle inside the housing. The housing has a movable housing portion, and at least one functional element that is movable and is separate from the movable housing portion. The toy vehicle has a drive wheel that, when driven in a first rotational direction causes the drive wheel to drive movement of the functional element so as to carry out a function without driving movement of the toy vehicle towards the movable housing portion, and when driven in a second rotational direction causes the drive wheel to drive the vehicle towards the movable housing portion.

A driving mechanism includes a driving member, a transmission member, and a swinging member. The driving member has an output end. The transmission member is connected to the output end of the driving member. The transmission member has a driving slot, and the driving slot extends along a circumferential direction of the transmission member. The swinging member is configured to be movably connected to a body of a robot. A part of the swinging member is movably connected in the driving slot, and configured to move along the driving slot under drive of the transmission member to drive the swinging member to swing.

A driving mechanism includes a driving member, a transmission member, and a swinging member. The driving member has an output end. The transmission member is connected to the output end of the driving member. The transmission member has a driving slot, and the driving slot extends along a circumferential direction of the transmission member. The swinging member is configured to be movably connected to a body of a robot. A part of the swinging member is movably connected in the driving slot, and configured to move along the driving slot under drive of the transmission member to drive the swinging member to swing.