A method for aligning the field of view of a user with the field of view of a camera mounted on the user's head may include providing at least one head-mounted camera module that includes at least one sensor that in turn includes an image sensor, where the said image sensor outputs video of an area; receiving a first input from a user to expect a second input relating to the field of view; receiving the second input relating to the field of view; and aligning the field of view of the user with the field of view of the camera.

An apparatus for use with an electronic communication device having a camera to take a selfie picture or video. In one embodiment, the apparatus comprises a mirror comprising a mirror surface. The apparatus further comprises a fastener directly connected to the mirror surface. The fastener is adapted to receive the electronic communication device to position the camera in front of the mirror surface. The apparatus may further comprise a plurality of light sources and a control circuit adapted to activate the plurality of light sources.

Systems, methods, and devices of the various embodiments enable virtual displays of an item, such as vehicle, to be generated. In an embodiment, a plurality of images of an item may be captured and annotation may be provided to one or more of the images. In an embodiment, the plurality of images may be displayed, and the transition between each of the plurality of images may be an animated process. In an embodiment, an item imaging system may comprise a structure including one or more cameras and one or more lights, and the item imaging system may be configured to automate at least a portion of the process for capturing the plurality of images of an item.

A camera apparatus, system, and method to allow a camera to attach to a light assembly is disclosed which includes a camera housing configured to at least partially enclose a camera and further attach to a bracket, the bracket configured to attach to vehicle light assemblies of varying heights and to allow rotation and vertical adjustment of the camera housing.

A spring clamp for removably attaching a camera, decoy or other device to a structural support. The clamp includes two opposing arms, each including a handle component and a jaw component. The clamp can be attached to an apparatus when the two jaw components including Inward facing arcuate jaws with gripping teeth and notches are closed around the apparatus. The clamp is provided with a plurality of threaded inserts at selected positions for supporting a device such as a camera. An adjustable and positionable extension may be removably fastened to the camera mount and the camera is detachably coupled to the extension. This allows an article such as a camera to be situated at any desired angle for taking photographs.

This invention relates to a tripod for shooting equipment that will find application both in the shooting industry and for personal purposes, and in particular for the installation of video or photographic equipment, a camera or other optical instrument. The tripod (1) has three adjacent telescopic legs (3) with identical locking mechanisms connected to the handle (5) located above the central support element (2). The handle (5) actuates the locking mechanisms simultaneously and independently of one another, whereby the legs (3) can be telescopically adjusted from the free state to the locked position in the desired position when unfolding or folding the tripod (1). Locking mechanisms provide stability when loading the tripod (1). The telescopic legs (3) of the tripod (1) are pivotally connected to the central support element (2), so the different angles of the legs (3) do not affect the effective operation of the locking mechanisms.

An apparatus for engaging equipment to a support includes a member defining a first channel having a first side wall capable of lateral movement with respect to a second side wall suitable for engaging the equipment therebetween. The member defines a pair of surfaces suitable for engaging equipment thereon. A movable member is capable of causing the lateral movement. A substantially compressible member is operably interconnected between the movable member and the first side wall. A pin is selectively raisable with respect to one of the surfaces within a peripheral area defined by the one of the surfaces.

Devices are described for high accuracy displacement of tools. In particular, embodiments provide a device for adjusting a position of a tool. The device includes a threaded shaft having a first end and a second end and a shaft axis extending from the first end to the second end, a motor that actuates the threaded shaft to move in a direction of the shaft axis. In some examples, the motor is operatively coupled to the threaded shaft. The device includes a carriage coupled to the camera, and a bearing assembly coupled to the threaded shaft and the carriage. In some examples, the bearing assembly permits a movement of the carriage with respect to the threaded shaft. The movement of the carriage allows the position of the camera to be adjusted.

A system and method for guiding placement of a vehicle service external fixture relative to a vehicle undergoing service or inspection. A vehicle service system support structure having at least one camera module is positioned at an initial location within a vehicle service area, and a location of the initial location within a vehicle reference frame is established from images of optical targets secured to the vehicle. The vehicle service system support structure is subsequently repositioned relative to the vehicle to a new position located outside of an external fixture placement region, while maintaining at least one of the observed optical targets within a field of view of the camera module. The new position of the vehicle service system support structure within said vehicle reference frame is determined from target images, and a placement location within the placement region for the external fixture is identified relative to the vehicle.

A surveillance camera assembly includes an upper portion providing a mounting feature for the surveillance camera assembly. A ball-shaped head portion of the camera assembly is coupled to the upper portion. A camera lens module is positioned within the head portion and movable relative to the upper portion to pan about a pan axis and tilt about a tilt axis. An illuminator module is movable to pan and tilt with the camera lens module, the illuminator module including laterally opposed arrays of lighting elements supported on distal ends of a bifurcated cooling duct having a central inlet opening coupled to the discharge outlet of a first blower.