A children's ride-on toy with an inflatable body portion that is inflated by an integrated air blower unit. The inflatable body portion can be releasably attached to the ride-on toy, such that it is interchangeable and allows children to customize their ride-on with a character or animal of their choice.

A children's ride-on toy with an inflatable body portion that is inflated by an integrated air blower unit. The inflatable body portion can be releasably attached to the ride-on toy, such that it is interchangeable and allows children to customize their ride-on with a character or animal of their choice.

An apparatus is provided that includes a torso and a plurality of legs, a first drive motor assembly secured to a first of the plurality of legs and to a first drive wheel, a second drive motor assembly secured to a second of the plurality of legs and to a second drive wheel, a motorized neck assembly coupling a head to the torso and providing a multi-directional rotational movement of the head, a rechargeable battery, a throttle switch to provide a throttle signal, a controller including one or more processors and memory devices, and an electrical steering position sensor configured to translate a mechanical steering input via manual rotation of the head into an electronic steering position signal that is communicated to the controller, wherein the controller is configured to selectively actuate at least one of the drive wheel motors based on the throttle signal and the steering position signal.

An apparatus is provided that includes a torso and a plurality of legs, a first drive motor assembly secured to a first of the plurality of legs and to a first drive wheel, a second drive motor assembly secured to a second of the plurality of legs and to a second drive wheel, a motorized neck assembly coupling a head to the torso and providing a multi-directional rotational movement of the head, a rechargeable battery, a throttle switch to provide a throttle signal, a controller including one or more processors and memory devices, and an electrical steering position sensor configured to translate a mechanical steering input via manual rotation of the head into an electronic steering position signal that is communicated to the controller, wherein the controller is configured to selectively actuate at least one of the drive wheel motors based on the throttle signal and the steering position signal.

An apparatus is provided that includes a torso and a plurality of legs, a first drive motor assembly secured to a first of the plurality of legs and to a first drive wheel, a second drive motor assembly secured to a second of the plurality of legs and to a second drive wheel, a motorized neck assembly coupling a head to the torso and providing a multi-directional rotational movement of the head, a rechargeable battery, a throttle switch to provide a throttle signal, a controller including one or more processors and memory devices, and an electrical steering position sensor configured to translate a mechanical steering input via manual rotation of the head into an electronic steering position signal that is communicated to the controller, wherein the controller is configured to selectively actuate at least one of the drive wheel motors based on the throttle signal and the steering position signal.

An apparatus is provided that includes a torso and a plurality of legs, a first drive motor assembly secured to a first of the plurality of legs and to a first drive wheel, a second drive motor assembly secured to a second of the plurality of legs and to a second drive wheel, a motorized neck assembly coupling a head to the torso and providing a multi-directional rotational movement of the head, a rechargeable battery, a throttle switch to provide a throttle signal, a controller including one or more processors and memory devices, and an electrical steering position sensor configured to translate a mechanical steering input via manual rotation of the head into an electronic steering position signal that is communicated to the controller, wherein the controller is configured to selectively actuate at least one of the drive wheel motors based on the throttle signal and the steering position signal.

The present invention relates to an apparatus for recognizing intention of a horse-riding simulator user, and a method thereof, and the apparatus for recognizing intention of a horse-riding simulator user can provide a safe and realistic horse-riding simulation environment to a user by recognizing an aid signal and an intention signal of the user to sense a dangerous situation and accordingly coping with the situation. According to the present invention, it is possible to increase the sense of the real for the user by enabling the horse-riding simulator user to perform similar interaction to actual horse-riding, and to increase effects of horse-riding training using the horse-riding simulator. Particularly, there is an advantage that the dangerous situation is sensed for safe riding, and it is possible to contribute to formation of a related technology market by providing an effective method for recognition of the intention of the horse-riding simulator user.

The present invention relates to an apparatus for recognizing intention of a horse-riding simulator user, and a method thereof, and the apparatus for recognizing intention of a horse-riding simulator user can provide a safe and realistic horse-riding simulation environment to a user by recognizing an aid signal and an intention signal of the user to sense a dangerous situation and accordingly coping with the situation. According to the present invention, it is possible to increase the sense of the real for the user by enabling the horse-riding simulator user to perform similar interaction to actual horse-riding, and to increase effects of horse-riding training using the horse-riding simulator. Particularly, there is an advantage that the dangerous situation is sensed for safe riding, and it is possible to contribute to formation of a related technology market by providing an effective method for recognition of the intention of the horse-riding simulator user.

A rideable toy, e.g., for children, provides space-saving features compared to similar rideable toys. The toy includes a base structure with a set of driving wheels and a motor. An inflatable body is attachable to the base structure. The inflatable body introduces a space-saving feature, as it can be deflated when not in use, thus saving on storage and shipping space. The toy may also include safety features, such as electrodes that signal incorrect attachment of the inflatable body and thereby prevent operation of the toy. The toy can be controlled either by a dedicated remote control or through an application on a mobile device. The toy maty also achieve space savings from a foldable or inflatable seat, hinges to fold the base, and specific interlocking mechanisms.