A method for facilitating space experiences for at least a first space user and for at least first and second different spaces, the method comprising the steps of storing first and second space experience specifications for the first and second different spaces, respectively, wherein the first and second space experience specifications indicate space affordance settings for the first and second spaces, respectively, sensing a trigger event associated with at least one of the first and second different spaces, where the sensed trigger event is associated with the first space, using the first space experience specification to control the first space affordances and where the sensed trigger event is associated with the second space, using the second space experience specification to control the second space affordances.

A device for managing the effort for a gym hall adapted to broadcast a relative effort objective. A system for piloting a gym hall including a sound broadcasting means, a visual broadcasting means, a lighting means, an effort management means, a human-machine interface, and a piloting means adapted to control, in an integrated manner and in real-time, the different means. A support structure for such a system, comprising a substantially horizontal planar frame including peripheral beams and a central beam, adapted to support all components of the system. A gym hall comprising a plurality of rectangular exercise stations, each station comprising a cardio apparatus, small exercise equipment, a rack and a central free space.

A stage automation system, may include: at least one processor device implementing a physics engine; at least one memory device; one or more instructions stored in the memory device that, when executed by the at least one processor device implementing a physics engine, configure the at least one processor device for: receiving at least one target case corresponding to a user-interface specified position of a virtual object representative of a real-world object within a virtual space representative of a real-world space; providing position data defining the target case as a seed value to a physics engine; computing at least one effect-of-gravity solution from the seed value; comparing the effect-of-gravity position solution to the target case to determine if the effect-of-gravity position is within one or more position tolerance values relative to the target case; and providing user notification indicative of the comparison between the effect-of-gravity solution and the target case.

An exemplary lighting system utilizes intelligent system elements, such as lighting devices, user interfaces for lighting control or the like and possibly sensors, and utilizes network communication amongst such intelligent system elements. Some processing functions performed within the system are implemented on a distributed processing basis, by two or more of the intelligent elements of the lighting system. Distributed processing, for example, may enable use of available processor and/or memory resources of a number of intelligent system elements to process a particular job. Another distributed processing approach might entail programming to configure two or more of the intelligent system elements to implement multiple instances of a server functionality with respect to client functionalities implemented on intelligent system elements.

The invention relates to a building automation device adaptable to space and communication requirements, comprising a communications module having a communications bus, an application module which implements the functionality, a bus connector for supplying power and data between the two modules, the communications module comprising a first casing having a first wall from which pins of the connector bus project, and a second wall with a first recess in which the communications bus is inserted, the application module comprising a second casing having a third wall from which a pin receiver projects, and a fourth wall having a second recess including electrical connection terminals, wherein, when the ten pins of the bus connector are introduced in their receiver, the first wall is positioned next to the third wall and the first casing is joined to the second casing by securing means.

A stage automation system may include a first and second executing program configured to selectively control a first and second actionable mechanism, respectively. The stage automation system may further include a stage automation server configured to: receive, from the first executing program, a distributed program object announcement including a set of one or more time-stamped variables associated with the first actionable mechanism; transmit a distributed program object announcement to the second executing program; receive one or more data packets from the second executing program; adjust at least one time-stamped variable of the distributed program object based on the one or more received data packets; and transmit one or more data packets to the first executing program to cause the first executing program to adjust the at least one time-stamped variable of the distributed program object associated with the first actionable mechanism.

A stage automation system, may include: at least one processor device implementing a physics engine; at least one memory device; one or more instructions stored in the memory device that, when executed by the at least one processor device implementing a physics engine, configure the at least one processor device for: receiving at least one target case corresponding to a user-interface specified position of a virtual object representative of a real-world object within a virtual space representative of a real-world space; providing position data defining the target case as a seed value to a physics engine; computing at least one effect-of-gravity solution from the seed value; comparing the effect-of-gravity position solution to the target case to determine if the effect-of-gravity position is within one or more position tolerance values relative to the target case; and providing user notification indicative of the comparison between the effect-of-gravity solution and the target case.

The invention relates to a rail-mounted building automation device adaptable to space and communication requirements, comprising a communications module having a communications bus, an application module that implements the functionality. A bus connector supplies power and transferring data. The communications module includes a first casing having ten bus connector pins, a lower body with the communications bus, having a wall further forward than another in relation to a user. The application module includes a second casing with a pin-receiving connector having three terminals, a first projection separated from a second projection at approximately the width of the rail, in use when the ten pins are introduced into the receiving connector and an upper body of the first casing is introduced into a third recess of the second casing, with both being joined by a securing apparatus.

The invention relates to a building automation device adaptable to space and communication requirements, comprising a communications module having a communications bus, an application module which implements the functionality, a bus connector for supplying power and data between the two modules, the communications module comprising a first casing having a first wall from which pins of the connector bus project, and a second wall with a first recess in which the communications bus is inserted, the application module comprising a second casing having a third wall from which a pin receiver projects, and a fourth wall having a second recess including electrical connection terminals, wherein, when the ten pins of the bus connector are introduced in their receiver, the first wall is positioned next to the third wall and the first casing is joined to the second casing by securing means.

The invention relates to a rail-mounted building automation device adaptable to space and communication requirements, comprising a communications module having a communications bus, an application module that implements the functionality, a bus connector for supplying power and transferring data, the communications module comprising a first casing having ten bus connector pins, a lower body with the communications bus, having a wall further forward than another in relation to a user, the application module comprising a second casing with a pin-receiving connector having three terminals, a first projection separated from a second projection at approximately the width of the rail, in use when the ten pins are introduced into the receiving connector and an upper body of the first casing is introduced into a third recess of the second casing, with both being joined by securing means.