A wastewater monitoring system uses a camera in a fixed location in a wastewater pipe. The camera is coupled to a sensor that measures some characteristic of material in the wastewater pipe. The sensor is programmed with one or more alarms that, when triggered, cause the sensor to wake up the camera and command the camera to take one or more photos. Sensor data, such as current time/date, location, and the characteristics of material in the wastewater pipe, is sent by the sensor to the camera, which overlays one or more photos with visible text information corresponding to the received sensor data. The sensor can wake up the camera and command the camera to turn on the camera's Wi-Fi interface, which allows a wastewater control system in a remote location to communicate directly with the camera.

A camera for a vehicle vision system includes a housing having a front housing portion with a lens barrel and lens assembly, and a rear housing portion with a connector. The front and rear housing portions are mated together to establish an inner cavity in the housing. An imager circuit board is disposed in the inner cavity of the housing, with an imager disposed at the imager circuit board and optically aligned with the lens assembly. When the front and rear housing portions are mated together, perimeter flanges of the front and rear housing portions may be curled to have multiple folds to seal the front housing portion relative to the rear housing portion. The imager circuit board may be held in the inner cavity by a spring element that urges the imager circuit board in a direction toward the lens assembly.

A system and method for a remote state following device that includes an electronic device with a controllable operating state; an imaging device; and control system that when targeted at a control interface interprets a visual state from the control interface, and modifies the operating state in coordination with the visual state.

This application is directed to a camera that includes a housing, a lens assembly and a plurality of electronic components. The lens assembly is arranged at a front portion of the housing and configured for focusing light received from outside of the camera. The plurality of electronic components is arranged at the front portion of the housing, and further includes an image sensor coupled to receive light through the lens assembly, a memory for storing information, a processor for processing information from the image sensor, and a wireless communication module for wirelessly communicating with an electronic device. The camera further includes a heat dissipation element arranged at a rear portion of the housing and located between the plurality of electronic components and a rear surface of the housing. The heat dissipation element is configured to transfer heat from the plurality of electronic components to the rear portion of the housing.

The invention is an improved device for converting a Twin Lens Reflex (TLR) film camera into Instant Film TLR or Digital Twin Lens Reflex (D-TLR) camera, by using a modular assembly which is the combination of a cartridge holder, an interchangeable instant film cartridge or a minicomputer with a digital sensor (CCD or CMOS) system, and a power bank, all interconnected at the back and bottom of the film camera.

A method of inspecting plants for contamination includes generating a first series of images of a plant using a camera mounted to a frame being moved along a planting bed by a harvester, identifying a region of interest displayed in the first series of images as a region of contamination on the plant based on a color criterion and a morphological criterion applied to the region of interest, and transmitting data including an instruction to increase a vertical distance between the plant and a cutter of the harvester to avoid harvesting the plant in response to identifying the region of interest as the region of contamination. The method further includes generating a second series of images of an additional plant as the frame continues to be moved along the planting bed by the harvester while the vertical distance between the plant and the cutter is being increased.

A camera module is provided. The camera module includes a lens module having at least one lens; a housing, configured to accommodate the lens module; and a driving unit, disposed between the lens module and the housing, and including a magnet portion and a coil portion, wherein the coil portion is disposed to surround the magnet portion.

The invention relates to a system (1) for monitoring the surroundings of a motor vehicle (100), in particular an autonomous or semi-autonomous motor vehicle, wherein the system (1) includes at least one optical image capturing device (2) as well as further a lighting device (3, 4), wherein the optical image capturing device (2) is arranged for capturing an area of coverage (E1) of the surroundings, and wherein the area of coverage (E1) can be illuminated at least partially, preferably completely, by the lighting device (3, 4), and wherein the lighting device (3, 4) is arranged for generating a motor vehicle light distribution or part of a motor vehicle light distribution. The system (1) includes at least one optical additional image capturing device (5), which is arranged to capture a so-called additional area of coverage (E2), and wherein the system (1) further includes an additional lighting device (6), which is arranged to illuminate at least partially, preferably completely, the additional area of coverage (E2), also called the second area of coverage.

The invention concerns a system for evaluating the surface of a tyre (10), comprising: a region (21) for entry of the tyre into the system, a capture region, and an exit region (22), distinct from the entry region, means for moving (23) and for holding a tyre in position, means for illuminating the tyre allowing the illumination of a sidewall of the tyre and of the crown of a tyre in the capture region, means for acquiring a visual image of the tyre in the capture region, means for processing the acquired image, at least one acquisition means being installed on a shaft that is movable with respect to the tyre installed in the capture region.

To dramatically develop a technology for determining a mental and physical state of a subject by observing temporal dilation and contraction of a pupil in response to stimulus light, an eye of the subject is irradiated with stimulus light for 0.5 second under a state in which the pupil of the subject is not adapted to darkness. The pupil of the subject becomes smaller and then larger than the size at the time of irradiation with stimulus light. When the size of the pupil of the subject 5 seconds after the moment of irradiation with the stimulus light is larger than the size of the pupil at the moment of irradiation with stimulus light, a determination system determines that the subject is in a state in which a sympathetic nerve is dominant over a parasympathetic nerve.