A system for performing a shrinking room illusion includes a first group of perforated optics panels defining a first interior space. First lighting is configured to illuminate the first group of perforated optics panels from the first interior space. The system also includes a second group of panels defining a second interior space, wherein the first group of perforated optics panels are nested within the second interior space. Second lighting is configured to illuminate the second group of panels from within the second interior space and positioned beyond the first interior space. A controller of the system is configured to control the first lighting and the second lighting to transition between illuminating the first group of perforated optics panels and illuminating the second group of panels such that a visual illusion of transitioning between the first interior space and the second interior space is provided.

A system for performing a shrinking room illusion includes a first group of perforated optics panels defining a first interior space. First lighting is configured to illuminate the first group of perforated optics panels from the first interior space. The system also includes a second group of panels defining a second interior space, wherein the first group of perforated optics panels are nested within the second interior space. Second lighting is configured to illuminate the second group of panels from within the second interior space and positioned beyond the first interior space. A controller of the system is configured to control the first lighting and the second lighting to transition between illuminating the first group of perforated optics panels and illuminating the second group of panels such that a visual illusion of transitioning between the first interior space and the second interior space is provided.

An immersive device that may include Geometric shapes with reflective mirrored interiors. One or more light emitting elements may be configured to emit light into the reflective chamber. A processing unit may be in electrical communication with the light emitting elements. A sound device may be in communication with the processing unit, and the sound device may be configured to output sound to a user within the reflective chamber. An array of sensors, such as: digital camera, microphone, and electrophysiological monitoring devices that may be in communication with the processing unit and are configured to change the experience of the user within the chamber depending upon the signals from the sensors on the user.

A kaleidoscope has an inside scaffold that allows the kaleidoscope to be used as both a toy and packaging for merchandise. The kaleidoscope preferably has a body with a chamber at one end that includes freely movable ornaments. A cap having an eyehole is configured to matingly close the body. Inside the body, three or more reflective surfaces are positioned at an angle to each other to form a polygon. The scaffold is disposed in the body, surrounded by the reflective surfaces, and has a cross-sectional shape sized and dimensioned to prevent the scaffold from moving or rotating relative to the reflective surfaces. Preferably, the scaffold has a polygonal cross-sectional shape substantially similar to the polygon formed by the reflective surfaces. A product (e.g., a lipstick) can be stored inside the scaffold without being able to move freely inside the kaleidoscope.

A kaleidoscope has an inside scaffold that allows the kaleidoscope to be used as both a toy and packaging for merchandise. The kaleidoscope preferably has a body with a chamber at one end that includes freely movable ornaments. A cap having an eyehole is configured to matingly close the body. Inside the body, three or more reflective surfaces are positioned at an angle to each other to form a polygon. The scaffold is disposed in the body, surrounded by the reflective surfaces, and has a cross-sectional shape sized and dimensioned to prevent the scaffold from moving or rotating relative to the reflective surfaces. Preferably, the scaffold has a polygonal cross-sectional shape substantially similar to the polygon formed by the reflective surfaces. A product (e.g., a lipstick) can be stored inside the scaffold without being able to move freely inside the kaleidoscope.

An immersive device may include reflective mirrored surfaces that form a perimeter of and bound a reflective chamber. Various geometric shapes of inner chamber such as platonic solids and objects of constant width are described that facilitate clusters of tessellations into infinite reflection unobtainable using other shapes. Specialized sizing and arrangements of the shapes allow for discrete full body observations of the tessellation clusters. One or more light emitting elements may be configured to emit light into the reflective chamber. A processing unit may be in electrical communication with the light emitting elements. A sound device may be in communication with the processing unit, and the sound device may be configured to output sound to a user within the reflective chamber. An array of sensors, such as: digital camera, microphone, and electrophysiological monitoring devices that may be in communication with the processing unit and are configured to change the experience of the user within the chamber depending upon the signals from the sensors on the user.

The present invention provides a 4D platform for home use and a 4D system for home use, which have a compact structure allowing the same to be easily connected to a TV monitor and comprise a physical sensation effect execution unit for providing a physical sensation effect according to each scene of an image.

An immersive device may include a floor having a floor reflective surface. A first sidewall, having a first wall reflective surface, may be coupled to the floor. A second sidewall, having a second wall reflective surface, may be coupled to the floor and coupled to the first sidewall. A third sidewall, having a third wall reflective surface, may be coupled to the floor opposite the first sidewall and coupled to the second sidewall. A fourth sidewall, having a fourth wall reflective surface, may be coupled to the floor opposite the second sidewall and coupled to both the first sidewall and third sidewall. A ceiling, having a ceiling reflective surface, may be coupled to the first, second, third, and fourth sidewalls, and the ceiling may be positioned opposite to the floor. The floor reflective surface, wall reflective surfaces, and ceiling reflective surface may form the perimeter of and bound an internal reflective chamber.

A system for performing a shrinking room illusion includes a first group of perforated optics panels defining a first interior space. First lighting is configured to illuminate the first group of perforated optics panels from the first interior space. The system also includes a second group of panels defining a second interior space, wherein the first group of perforated optics panels are nested within the second interior space. Second lighting is configured to illuminate the second group of panels from within the second interior space and positioned beyond the first interior space. A controller of the system is configured to control the first lighting and the second lighting to transition between illuminating the first group of perforated optics panels and illuminating the second group of panels such that a visual illusion of transitioning between the first interior space and the second interior space is provided.

A system for performing a shrinking room illusion includes a first group of perforated optics panels defining a first interior space. First lighting is configured to illuminate the first group of perforated optics panels from the first interior space. The system also includes a second group of panels defining a second interior space, wherein the first group of perforated optics panels are nested within the second interior space. Second lighting is configured to illuminate the second group of panels from within the second interior space and positioned beyond the first interior space. A controller of the system is configured to control the first lighting and the second lighting to transition between illuminating the first group of perforated optics panels and illuminating the second group of panels such that a visual illusion of transitioning between the first interior space and the second interior space is provided.