A system and method for leveling a selected surface of a structure. The system includes a handheld mobile device and a platform leveling assembly (PLA) supportable on a structure to be leveled. The PLA includes a PLA controller and a PLA receiver communicatively coupled with the PLA controller. The handheld mobile device includes a tilt sensor configured to sense an attitude of a selected surface on which the handheld mobile device is placed; an output device configured to provide an indication to a user; an input device configured to receive input from the user; a transmitter configured to send wireless signals to the PLA receiver; and a mobile device controller communicatively coupled to the tilt sensor, the output device, the input device, and the transmitter and configured to cause the output device to provide an indication of the sensed attitude of the selected surface.

A system and method for leveling a selected surface of a structure. The system includes a handheld mobile device and a platform leveling assembly (PLA) supportable on a structure to be leveled. The PLA includes a PLA controller and a PLA receiver communicatively coupled with the PLA controller. The handheld mobile device includes a tilt sensor configured to sense an attitude of a selected surface on which the handheld mobile device is placed; an output device configured to provide an indication to a user; an input device configured to receive input from the user; a transmitter configured to send wireless signals to the PLA receiver; and a mobile device controller communicatively coupled to the tilt sensor, the output device, the input device, and the transmitter and configured to cause the output device to provide an indication of the sensed attitude of the selected surface.

Various embodiments of methods and apparatus for detecting a change in an orientation of a portion of a structure. In some embodiments, the apparatus includes a processor, an energy storage unit, a location reporting unit, a wireless communication module and one or more inclination sensors. In some embodiments, each of the one or more inclination sensors is configured to measure inclination by measuring an orientation of the each of the one or more inclination sensors relative to a gravitational acceleration vector.

Various embodiments of methods and apparatus for detecting a change in an orientation of a portion of a structure. In some embodiments, the apparatus includes a processor, an energy storage unit, a location reporting unit, a wireless communication module and one or more inclination sensors. In some embodiments, each of the one or more inclination sensors is configured to measure inclination by measuring an orientation of the each of the one or more inclination sensors relative to a gravitational acceleration vector.

A tripod head for supporting a camera includes an electronic leveling and display system to produce a continuously visible display of the leveling of the tripod head and the camera mounted thereon. That is, the tripod head may be rotated (a full 360 degrees) so the display system is visible regardless of the position of the camera. The display system attached to, or made part of, the tripod head includes light indicating elements (e.g., LEDs or LCDs) which may be easily seen, day or night and under physical constraints limiting access to the camera, regardless of the orientation of the camera.

A tripod head for supporting a camera includes an electronic leveling and display system to produce a continuously visible display of the leveling of the tripod head and the camera mounted thereon. That is, the tripod head may be rotated (a full 360 degrees) so the display system is visible regardless of the position of the camera. The display system attached to, or made part of, the tripod head includes light indicating elements (e.g., LEDs or LCDs) which may be easily seen, day or night and under physical constraints limiting access to the camera, regardless of the orientation of the camera.

Various embodiments of methods and apparatus for detecting a change in an orientation of a portion of a structure. In some embodiments, the apparatus includes a processor, an energy storage unit, a location reporting unit, a wireless communication module and one or more inclination sensors. In some embodiments, each of the one or more inclination sensors is configured to measure inclination by measuring an orientation of the each of the one or more inclination sensors relative to a gravitational acceleration vector.

Various embodiments of methods and apparatus for detecting a change in an orientation of a portion of a structure. In some embodiments, the apparatus includes a processor, an energy storage unit, a location reporting unit, a wireless communication module and one or more inclination sensors. In some embodiments, each of the one or more inclination sensors is configured to measure inclination by measuring an orientation of the each of the one or more inclination sensors relative to a gravitational acceleration vector.

A device for emitting electromagnetic radiation and/or sound waves by a corresponding transmitter and a corresponding method, wherein the device includes a control module connected to the transmitter. The control module includes a processor and an inclination sensor. The inclination sensor is electrically connected to the processor. The processor is configured to evaluate an inclination angle or change in inclination angle recorded by the inclination sensor continuously or periodically after each elapsing of a time interval in relation to a movement of the inclination sensor and for controlling the transmitter in an active state, in which the transmitter is switched on, or in a passive state, in which the transmitter is switched off. An intuitive control of the transmitter by means of a tilting movement of the inclination sensor is hereby achieved.

A device for emitting electromagnetic radiation and/or sound waves by a corresponding transmitter and a corresponding method, wherein the device includes a control module connected to the transmitter. The control module includes a processor and an inclination sensor. The inclination sensor is electrically connected to the processor. The processor is configured to evaluate an inclination angle or change in inclination angle recorded by the inclination sensor continuously or periodically after each elapsing of a time interval in relation to a movement of the inclination sensor and for controlling the transmitter in an active state, in which the transmitter is switched on, or in a passive state, in which the transmitter is switched off. An intuitive control of the transmitter by means of a tilting movement of the inclination sensor is hereby achieved.