A soundproofing device includes: a first layer (911) having sound absorbing properties; and a second layer (912) including elastic fibers.

A soundproofing device includes: a first layer (911) having sound absorbing properties; and a second layer (912) including elastic fibers.

An educational toy (1) includes a self-moving vehicle (10) adapted to move and steer freely on a two-dimensional surface (2) such as a table leaf. A tangible, three-dimensional marker (20) includes at least one RFID tag (21) is used to wirelessly trigger a specific action of the vehicle (10), e.g. turn 90 degrees right, when the vehicle (10) enters a readout range of the marker (20). The marker (20) can be placed freely on the surface (2) and cannot be overrun by the vehicle (10). Thus, the vehicle (10) is instructed to perform a certain action, e.g. take a 90 degrees left turn, using the marker (20). Then, the vehicle (10) moves forward until a next marker (20′) is found from which the vehicle (10) receives its next instruction. This enables the educational toy (1) to teach programming during play, which reduces the risk that a user will lose interest.

An information processor including: an operation control unit that controls a motion of an autonomous mobile body acting on the basis of recognition processing, in a case where a target sound that is a target voice for voice recognition processing is detected, the operation control unit moving the autonomous mobile body to a position, around an approach target, where an input level of a non-target sound that is not the target voice becomes lower, the approach target being determined on the basis of the target sound.

An information processor including: an operation control unit that controls a motion of an autonomous mobile body acting on the basis of recognition processing, in a case where a target sound that is a target voice for voice recognition processing is detected, the operation control unit moving the autonomous mobile body to a position, around an approach target, where an input level of a non-target sound that is not the target voice becomes lower, the approach target being determined on the basis of the target sound.

An information processor includes an action planning unit performing action planning of a moving body acting based on recognition processing, and an evaluation section evaluating reliability of an estimated sound source direction, the action planning unit planning a direction-dependent motion of the moving body corresponding to the sound source direction based on evaluation results of the reliability by the evaluation section and past evaluation achievements; and an information processing method including causing a processor to perform action planning of a moving body acting based on recognition processing, and evaluate reliability of an estimated sound source direction, the performing the action planning further including planning a direction-dependent motion of the moving body corresponding to the sound source direction based on evaluation results of the reliability and past evaluation achievements.

An information processor includes an action planning unit performing action planning of a moving body acting based on recognition processing, and an evaluation section evaluating reliability of an estimated sound source direction, the action planning unit planning a direction-dependent motion of the moving body corresponding to the sound source direction based on evaluation results of the reliability by the evaluation section and past evaluation achievements; and an information processing method including causing a processor to perform action planning of a moving body acting based on recognition processing, and evaluate reliability of an estimated sound source direction, the performing the action planning further including planning a direction-dependent motion of the moving body corresponding to the sound source direction based on evaluation results of the reliability and past evaluation achievements.

A pet robot in a shape of an animal is provided. The pet robot may include a body, a leg connected to the body, and a foot body configured to rotate around a connection portion horizontally connected to a lower end of the leg. The foot body may include a front portion positioned at a front of the lower end of the leg, a pair of side portions extending rearward from the front portion and connected to both sides of the leg, and an elastic piece connected to the front portion and positioned between the pair of side portions to provide an elastic force to the lower end of the leg.

A pet robot in a shape of an animal is provided. The pet robot may include a body, a leg connected to the body, and a foot body configured to rotate around a connection portion horizontally connected to a lower end of the leg. The foot body may include a front portion positioned at a front of the lower end of the leg, a pair of side portions extending rearward from the front portion and connected to both sides of the leg, and an elastic piece connected to the front portion and positioned between the pair of side portions to provide an elastic force to the lower end of the leg.

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.).