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.

A portable windbreak shelter assembly provides a combination shelter and windbreak which can be moved to a desired position using conventional vehicles typically available on a farm includes a shelter frame having a front, a back, a bottom face, a first lateral side face, and a second lateral side face. The first lateral side face and the second lateral side face extend upwardly from respective opposite edges of the bottom face and meet to define an apex of the shelter frame extending between the front and the back. A covering is coupled to the shelter frame wherein the covering and the shelter frame inhibit wind from passing through the shelter frame to define a sheltered interior space. The shelter frame is movable using conventional farm equipment.

A portable windbreak shelter assembly provides a combination shelter and windbreak which can be moved to a desired position using conventional vehicles typically available on a farm includes a shelter frame having a front, a back, a bottom face, a first lateral side face, and a second lateral side face. The first lateral side face and the second lateral side face extend upwardly from respective opposite edges of the bottom face and meet to define an apex of the shelter frame extending between the front and the back. A covering is coupled to the shelter frame wherein the covering and the shelter frame inhibit wind from passing through the shelter frame to define a sheltered interior space. The shelter frame is movable using conventional farm equipment.

A system of modular components for on-site assembly of a shelter for an above-ground structure to protect the structure from blast, wind, fire or other physical hazards. A pyramidal shelter with triangular or rectangular base is formed by joining side panels to each other. Each side panel includes a triangular frame covered, except at access hatch, observation port and door openings, with either steel plate or diamond steel mesh to which blast-resistant, fire-resistant or other kinds of coatings or panels are applied. A corner anchor assembly to support each corner of a shelter has a lower plate, an overlying split plate, and a pair of upstanding, anchor rods attached to the split plates for insertion into hollow, lower portions of side beams of adjacent side panels. The corner anchor assemblies facilitate expansion of an assembled shelter by addition of more modular components.

A portable windbreak shelter assembly provides a combination shelter and windbreak which can be moved to a desired position using conventional vehicles typically available on a farm includes a shelter frame having a front, a back, a bottom face, a first lateral side face, and a second lateral side face. The first lateral side face and the second lateral side face extend upwardly from respective opposite edges of the bottom face and meet to define an apex of the shelter frame extending between the front and the back. A covering is coupled to the shelter frame wherein the covering and the shelter frame inhibit wind from passing through the shelter frame to define a sheltered interior space. The shelter frame is movable using conventional farm equipment.

The wind collection apparatus has a wind collecting section for collecting wind taken from a front surface side into a wind outlet. The wind outlet is provided below an upper end of the front surface of the wind collecting section. The wind collecting section is configured such that a cross section of wind flow passage becomes smaller from the front surface side toward the rear surface side. The wind collecting section has a pair of left and right side wall portions, and an upper wall portion bridged between the pair of side wall portions. A plurality of support columns are arranged to penetrate the upper wall portion. The upper end portion of each support column and the upper wall portion are connected to each other by cables, and upper wall portion is suspended by the cables.

The invention relates to a modular building (2), to be assembled in various sizes and in various environments, having a generally triangular transverse sectional profile, wherein the modular building comprises a double sloping roof (6) over the generally triangular transverse sectional profile, and wherein the one or more double sloping roof panels comprise composite panel material.

Pyramidal housing autonomous and suitable for different environmental conditions. Its pyramidal structure (1) is made up of metal profiles (10) that include corner pillars (10a), side pillars (10b), beams or cross structures of mezzanine (17)(19) and rafters that form the openings (4), being the pillars anchored to the foundation beam (13); over this structure, the outer covers (15) that form the pyramidal walls (15a) are mounted; in the blind sections of the outer cover (15) of the upper floor there are mounting supports (32) for arrangements of solar panels (30), while at the apex (12) there is a wind energy generator; other blind sectors allow the mounting of a solar heater (50).

A system of modular components for on-site assembly of a shelter for an above-ground structure to protect the structure from blast, wind, fire or other physical hazards. A pyramidal shelter with triangular or rectangular base is formed by joining side panels to each other. Each side panel includes a triangular frame covered, except at access hatch, observation port and door openings, with either steel plate or diamond steel mesh to which blast-resistant, fire-resistant or other kinds of coatings or panels are applied. A corner anchor assembly to support each corner of a shelter has a lower plate, an overlying split plate, and a pair of upstanding, anchor rods attached to the split plates for insertion into hollow, lower portions of side beams of adjacent side panels. The corner anchor assemblies facilitate expansion of an assembled shelter by addition of more modular components.

A method for designing a structure includes selecting an initial cage, defining a secondary cage by positioning a plurality of tiles, reduced tiles, or larger patches obtained or derived from a selected one of the uniform Archimedean tilings over the faces of the initial cage, resizing edges of the secondary cage such the cage is equilateral, and planarizing the cage faces. In an embodiment the patch comprising a network of edges and vertices from a uniform tiling decorates the faces of a polyhedron to define a non-polyhedral cage that is transformed by planarizing the faces. In an embodiment the secondary cage comprises tiles derived from an Archimedean tiling that decorate faces of the initial cage comprising a polyhedron. In an embodiment the secondary cages resemble a nanotube.