A kit for creating a miniature replica of a model object, the kit including a base object that forms a base of the miniature replica, the base object comprising a miniature replica of a component of the model object, a resin container storing a resin configured to be applied to the base object and to adhere to the base object, the resin container comprising a miniature replica of a container associated with the model object, and one or more ingredient objects configured to be at least partially embedded in the resin, the one or more ingredient objects comprising miniature replicas of one or more ingredients associated with the model object, the resin being configured to solidify when exposed to ultraviolet light to thereby affix the resin to the base object and to affix the one or more ingredient objects at least partially within the resin.

A method, computer-readable medium, and system are disclosed for an interactive storytelling environment. The method comprises identifying a plurality of storytelling devices available to participate in a storytelling experience, at least one of the plurality of the storytelling devices comprising a first beacon device. The method further comprises beginning playback of a first story of the storytelling experience, the first story comprising a first plurality of predetermined actions associated with a predetermined first virtual setting, the first virtual setting mapped to the first beacon device. The method further comprises determining a location of a user using the first beacon device, and during playback of the first story and using at least one of the plurality of storytelling devices, producing one or more of the at least one audiovisual effect corresponding to the first virtual setting based on the determined location of the user.

A method, computer-readable medium, and system are disclosed for an interactive storytelling environment. The method comprises identifying a plurality of storytelling devices available to participate in a storytelling experience, at least one of the plurality of the storytelling devices comprising a first beacon device. The method further comprises beginning playback of a first story of the storytelling experience, the first story comprising a first plurality of predetermined actions associated with a predetermined first virtual setting, the first virtual setting mapped to the first beacon device. The method further comprises determining a location of a user using the first beacon device, and during playback of the first story and using at least one of the plurality of storytelling devices, producing one or more of the at least one audiovisual effect corresponding to the first virtual setting based on the determined location of the user.

A play center for a child includes: a structure configured to removably receive a first board in a generally horizontal orientation, to removably receive a second board in a generally vertical orientation, and a storage area for receiving and storing additional boards that are interchangeable with the first and second boards; and a plurality of boards configured to be removably attached to the play center, each board being preconfigured for a particular activity to be performed at the play center, whereby each board can be swapped out to provide for a child is to participate in a different activity at the play center. Preferably, one or more pairs of the boards collectively are preconfigured for the particular play center activity and, more particularly, a pair of boards configured for being mounted in a vertical orientation and a pair of boards configured for being mounted in a horizontal orientation.

A collapsible play structure having a collapsed configuration and an opened configuration comprises: a left panel having a back surface, a front surface, a horizontal axis, and a vertical axis; a left fold out structure coupled to the left panel, the left fold out structure comprising one or more members rotatably coupled to the left panel to be rotatable about an axis parallel with the horizontal axis of the left panel; a right panel having a back surface, a front surface, a horizontal axis, and a vertical axis; a right fold out structure coupled to the right panel, the right fold out structure comprising one or more members rotatably coupled to the right panel to be rotatable about an axis parallel with the horizontal axis of the right panel; and a center panel having a back surface and a front surface, the center panel rotatably coupled to the left panel and the right panel in an orientation that aligns the vertical axes of the left panel and the right panel in a parallel alignment, wherein, in the opened configuration, the left fold out structure and right fold out structure are coupled together by at least one releasable joint.

In accordance with the present invention, a stand-alone pop up assembly and method for making the same is provided comprising a plurality of wall panels connected with an internal base. A roof structure is provided and a roof interface component for attaching the roof to the structure. The assembly is moveable between a first position being substantially flat into a one dimensional structure and a second position enfolded into a three dimensional structure by manipulating the outer structure and the internal base. The roof interface component may swivel into place during the movement to the three dimensional structure, thereby positioning the roof structure over the upper portions of the first and second panel walls or, alternatively, a sliding feature is provided with a tab from the roof inserted into a slot at the top of one of the panel walls, thereby sliding the roof into position.

In accordance with the present invention, a stand-alone pop up assembly and method for making the same is provided comprising a plurality of wall panels connected with an internal base. A roof structure is provided and a roof interface component for attaching the roof to the structure. The assembly is moveable between a first position being substantially flat into a one dimensional structure and a second position enfolded into a three dimensional structure by manipulating the outer structure and the internal base. The roof interface component may swivel into place during the movement to the three dimensional structure, thereby positioning the roof structure over the upper portions of the first and second panel walls or, alternatively, a sliding feature is provided with a tab from the roof inserted into a slot at the top of one of the panel walls, thereby sliding the roof into position.

In accordance with the present invention, a stand-alone pop up assembly and method for making the same is provided comprising a three dimensional base comprising folding planar walls, accessory interface component, and accessory positioning component. An accessory having a body and a sliding interface component is installed upright within and connected with the three dimensional base forming a standing pop up structure.

In accordance with the present invention, a stand-alone pop up assembly and method for making the same is provided comprising a three dimensional base comprising folding planar walls, accessory interface component, and accessory positioning component. An accessory having a body and a sliding interface component is installed upright within and connected with the three dimensional base forming a standing pop up structure.

A parts supply body includes a plurality of parts supply units including parts of a model, the parts supply units being connected to each other. Each of the parts supply units is structured such that only at least one or more parts belonging to one portion among a plurality of portions that constitute the model are each connected to a first runner by a second runner. The first runners of the parts supply units are connected to each other such that the parts supply units are separable from each other. Each parts supply unit includes first identification information and second identification information, the first identification information indicating one of the portions that corresponds to the parts supply unit, the second identification information being used to uniquely distinguish the parts supply body from another one or more parts supply bodies including other parts of the model.