A system for controlling player movement within a fixed virtual reality play area includes a plurality of panels defining an X by Y virtual reality play area, a transport area associated with the X by Y virtual reality play area and a virtual reality system. The virtual reality system displays a virtual reality environment to players. The virtual reality system divides the X by Y virtual reality play area defined by the plurality of panels into a plurality of virtual reality environment play areas. Each of the plurality of virtual reality environment areas comprises a portion of the virtual reality play area. The virtual reality system associates a first virtual reality player group with a first virtual reality environment play area of the plurality of virtual reality environment play areas and associates a second virtual reality player group with a second virtual reality environment play area of the plurality of virtual reality environment play areas. The first and second virtual reality player groups include at least one player member. The virtual reality system determines if the second virtual reality environment play area has been vacated by the second virtual reality player group. If the second virtual reality player group has not vacated the second virtual reality environment play area, the virtual reality system prevents entry of the first virtual reality player group into the second virtual reality environment play area from the first virtual reality environment play area. If the second virtual reality player group has vacated the second virtual reality environment play area, the virtual reality system enables entry of the first virtual reality player group into the second virtual reality environment play area from the first virtual reality environment play area.

A method for controlling player movement within a virtual reality environment involves locating a position of a player within the virtual reality environment. It is then determined if the player is in a desired position within the virtual reality environment. A positive visual indicator is generated to the player if the player is located in the desired position. A negative visual indicator is generated to the player if the player is not located in the desired position.

A system for providing a virtual reality experience includes a plurality of wall panels at a plurality of wall panel locations defining an X by Y area within the interior of the plurality of wall panels. At least one haptic feedback device associated with at least one of the plurality of wall panels for providing haptic feedback to a user. A transition area is associated with the X by Y area. A virtual reality system displays a first virtual reality environment to the user within at least a portion of the X by Y area. The first virtual reality environment defines a first virtual reality pathway for the user within the X by Y area to the at least one haptic feedback device. The virtual reality system displays a second virtual reality environment different from the first virtual reality environment within at least a portion of the X by Y area. The second virtual reality path defining a second virtual pathway for the user within the X by Y area to the at least one haptic feedback device that is different from the first virtual pathway responsive to the user entering the transition area while in the first virtual reality environment.

A system for sealing a space defined between a modular wall and a permanent structure includes a sealing material connected to the permanent structure and the modular wall and spanning the space defined therebetween. The sealing material is configured to transform from an expanded state to a recovered state in response to a stimulus to form a seal. The stimulus can be, for example, heat, whereby heating the sealing material at or above the transition temperature for the sealing material causes the sealing material to transition from the expanded state to the recovered state.

A wall connection system is disclosed, which includes a horizontal building frame component with a first vertical face that has a first slot. The system further includes a prefabricated wall structure with a plurality of parallel studs and an elongate member connect to each stud. The elongate member has a second vertical face with a second slot and is parallel to the first vertical face. The long axis of the first slot is perpendicular to the long axis of the second slot. A fastener assembly connects the horizontal building frame component to the wall structure, through the slots.

A movable wall panel system is disclosed. The movable wall panel system may include at least one monitoring system to monitor at least one area adjacent the movable wall panel system. The movable wall panel system may include a touch screen as part of an operator interface.

A system for providing a virtual reality experience includes a plurality of wall panels at a plurality of wall panel locations defining an X by Y area within the interior of the plurality of wall panels. At least one haptic feedback device associated with at least one of the plurality of wall panels for providing haptic feedback to a user. A transition area is associated with the X by Y area. A virtual reality system displays a first virtual reality environment to the user within at least a portion of the X by Y area. The first virtual reality environment defines a first virtual reality pathway for the user within the X by Y area to the at least one haptic feedback device. The virtual reality system displays a second virtual reality environment different from the first virtual reality environment within at least a portion of the X by Y area. The second virtual reality path defining a second virtual pathway for the user within the X by Y area to the at least one haptic feedback device that is different from the first virtual pathway responsive to the user entering the transition area while in the first virtual reality environment.

Various aspects of the present disclosure are directed toward apparatuses, systems, and methods for a modular wall system. The modular wall system may include a panel frame; a sliding door including a first vertical side, a second vertical side, an upper surface, and a lower surface; sliding door hardware coupled to the upper surface of the sliding door configured to translate the sliding door within the panel frame; and a sliding track seal arranged with the header including a substantially linear portion extending from the header and a curved portion configured to maintain contact with the sliding door in a closed configuration, an open configuration, and in transitioning between the open configuration and the closed configuration.

A leveling assembly for leveling a bottom edge of an interior wall panel includes an elongate floor channel secured to the floor, a floor rail at least partially disposed with the floor channel for supporting the bottom edge of the wall panel, and at least one leveler at least partially located within the floor rail. Each leveler includes a head couplable to the floor channel, an adjustment rod projecting from the head, and a rail support having a collar and a support shoulder extending outwardly from the collar. The head is substantially prevented from transverse movement when coupled to the floor channel. The collar passes through an aperture defined in a horizontal portion of the floor rail and is threadedly engaged with the adjustment rod. The support shoulder supports the floor rail. The adjustment rod is rotated to vary a vertical distance between the floor rail and the floor channel.

A leveling assembly for leveling a bottom edge of an interior wall panel includes an elongate floor channel secured to the floor, a floor rail at least partially disposed with the floor channel for supporting the bottom edge of the wall panel, and at least one leveler at least partially located within the floor rail. Each leveler includes a head couplable to the floor channel, an adjustment rod projecting from the head, and a rail support having a collar and a support shoulder extending outwardly from the collar. The head is substantially prevented from transverse movement when coupled to the floor channel. The collar passes through an aperture defined in a horizontal portion of the floor rail and is threadedly engaged with the adjustment rod. The support shoulder supports the floor rail. The adjustment rod is rotated to vary a vertical distance between the floor rail and the floor channel.