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.

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.

According to one embodiment, a camera module includes an imaging device, a liquid crystal panel having an incident light control area, and a lens. The liquid crystal panel has a plurality of electrodes located in the incident light control area. The imaging device acquires information of light transmitted through the incident light control area of the liquid crystal panel and the lens.

A device to quickly attach a body camera to an extendable defense baton such as an ASP® friction baton or the like and allow it stream to a cell or other electronic device via a wireless connection. The attachment consists of a backplate having an aperture for an interlocking twist and lock mechanism that inserts into the aperture and interlocks the body camera to the backplate. The backplate in turn has a connection device that secures the backplate to an extendable defense baton. Optional lights with a power source permits a user to enhance building surveillance and/or in operation with checking for contraband or explosives on a vehicle or trailer.

A device to quickly attach a body camera to an extendable defense baton such as an ASP® friction baton or the like and allow it stream to a cell or other electronic device via a wireless connection. The attachment consists of a backplate having an aperture for an interlocking twist and lock mechanism that inserts into the aperture and interlocks the body camera to the backplate. The backplate in turn has a connection device that secures the backplate to an extendable defense baton. Optional lights with a power source permits a user to enhance building surveillance and/or in operation with checking for contraband or explosives on a vehicle or trailer.

The invention relates to a drone accessory and a method of controlling the drone accessory. The drone accessory comprising at least one camera being configured to capturing images of a directional-adjustable camera of a drone and transmitting the images to the processor, determining a viewing direction of the directional-adjustable camera of the drone, and directing a directional-adjustable device in the determined viewing direction.

Measurement apparatus (20) includes a garment (24, 26, 140, 160) including an elastic fabric (27) having a predefined pattern (28) extending across a surface thereof and configured to be worn over a part of a body of a subject (22), such that the elastic fabric stretches across the part of the body. A camera (30, 80) is configured to capture images of the pattern while contacting and traversing across the surface of the fabric while the subject wears the garment. At least one processor (32, 36, 60) is configured to process the images captured by the camera at multiple locations on the surface of the fabric so as measure a local deformation of the pattern at the multiple locations due to stretching of the fabric, and to compute a dimension of the part of the body responsively to the measured deformation.

The present disclosure relates to an imaging system, a control method, and a program capable of optimizing a release time lag.

An external flash transmits a light emission preparation time from when reception of a light emission command is completed until when a light emission trigger is acceptable. An imaging device communicates with the external flash, acquires the light emission preparation time, and optimizes an output timing of the light emission trigger on the basis of the light emission preparation time. The present technology is applicable to, for example, an imaging system including an external flash and an imaging device.

A working vehicle is capable of autonomously traveling on a target traveling route and appropriately performing illumination during autonomous traveling to enable an operator to reliably confirm the presence of obstacles or the like on the target traveling route. The working vehicle includes a traveling body to autonomously travel on the target traveling route, illumination lamps located on the traveling body to respectively illuminate different directions, and a controller to change a control relating to a way of turning on the illumination lamps during the autonomously traveling.

A light source device includes: a first light source configured to emit first light including a white wavelength band or one or more wavelength bands of at least red, green, and blue; a second light source configured to emit second light including a specific wavelength band included in the first light; a first detector configured to detect an amount of the light of the specific wavelength band in the first light; a first optical member configured to multiplex light of a wavelength band different from the specific wavelength band in the first light, and the second light; and a processor configured to control the first light source based on a detection result of the first detector.