An imaging lens assembly module has an optical axis, and includes an optical element set, a light blocking element assembling surface, and a light absorbing layer. The optical element set includes an optical lens element and a light blocking sheet. The optical lens element is a plastic lens element, and includes an optical effective portion and an outer peripheral portion. The light blocking sheet is disposed on the outer peripheral portion, and spaced apart from the outer peripheral portion. The light blocking sheet includes an object-side surface, an image-side surface and an inner opening surface. The inner opening surface surrounds a through hole of the light blocking sheet. The light blocking sheet is disposed on the light blocking element assembling surface. The light absorbing layer is disposed on the image-side surface and for fixing the light blocking sheet on the light blocking element assembling surface.

Information of plant based on color of a surface of plant is acquired from image data obtained by imaging plant, allowing to acquire information of plant at low cost, compared to chlorophyll meter or spectroscopic analyzer. In crop production like rice plant, fertilization management including fertilizer application management like fertilizer amount determination, or other agricultural works, is supported through a smart phone or the like based on data to be observed, like converted leaf color value is calculated from image data obtained by crop imaging. Camera is connected to smart phone. Converted leaf color value can be obtained from image data obtained by imaging leaf of rice plant by camera. Converted leaf color value is transmitted to management server, for example, amount information of applied fertilizer is required in case where converted leaf color value is less than standard, can be obtained as management information for fertilizer application management.

A camera system suitable for use on an automated vehicle, includes an imager used to detect an image of a field-of-view of the system, a light-shield operable to block a portion of the image from being received by the imager, and a controller in communication with the imager and the light-shield. The controller is configured to position the light-shield in a line-of-sight between a bright-spot and the imager.

A camera module, which is mounted on an inside of a front windshield of a vehicle and to image an external environment of the vehicle, includes a lens unit and an imager to image the external environment by forming an optical image, which is from the external environment through the lens unit.

A camera shield system includes a vehicle that has a back side. At least one camera is coupled to the back side. The at least one camera may display an area behind the vehicle when the vehicle is backing. Thus, the vehicle may avoid striking an object when backing. At least one cone is provided. The at least one cone is coupled to the back side and the at least one cone is positioned to surround the at least one camera. Thus, the at least one cone inhibits the at least one camera from becoming obstructed with precipitation.

An anti-dazzle imaging camera is provided that includes a photorefractive crystal that is wavelength-agnostic. The photorefractive crystal is configured to receive an optical beam. When the optical beam includes no laser, the photorefractive crystal is configured to pass the optical beam unchanged to an imaging detector. When the optical beam includes a laser, the photorefractive crystal is configured to attenuate the laser to generate a modified optical beam and to pass the modified optical beam to the imaging detector.

An image pickup apparatus which is able to obtain images with high sharpness by improving circulation of air in the image pickup apparatus to prevent formation of condensation and frost on a cover, which protects a lens unit, while ensuring imperviousness to light. An illumination unit provided around a lens unit emits illumination light toward a subject through the cover placed on a subject side of the lens unit. An annular light-shielding member between the lens unit and the cover prevents the illumination light from reflecting on the cover to enter the lens unit and shields reflected light of the illumination light. The light-shielding member has a circulation path that enables circulation of air between a space on the subject side of the lens unit and on an inner peripheral side of the light-shielding member and a space on an outer peripheral side of the light-shielding member.

An optical element driving mechanism is provided, including a fixed part, a movable part and a driving assembly. The fixed part has a main axis, includes an outer frame and a base. The outer frame has a top surface and a sidewall. The top surface intersects the main axis. The sidewall extends from the edge of the top surface along the main axis. The base includes a base plate intersecting the main axis and securely connected to the outer frame. The movable part moves relative to the fixed part, and connects to an optical element having an optical axis. The driving assembly drives the movable part to move relative to the fixed part. The main axis is not parallel to the optical axis.

A panoramic photography head for easily photographing a plurality of images having different orientations without any vignetting in order to generate a panoramic image and to provide a photography system using the panoramic photography head are provided. A panoramic photography system includes: a digital camera body with a lens having a predetermined field of view at a front end thereof and can photograph a digital image; a panoramic photography head connected to a lower surface of the digital camera body; and a legged platform connected to a lower surface of the panoramic photography head. The panoramic photography head includes: an approximately horizontal upper plate having a second connector for realizing non-rotatably connection to the first connector; a vignetting preventing extension that is bent downward from the upper plate to secure a predetermined gap so as to prevent the panoramic photography head and the legged platform from being photographed in an image; and a lower plate that extends approximately horizontally and toward a front side from a lower end of the vignetting preventing extension and has a legged platform connector for connection to the legged platform. The legged platform connector is positioned vertically under a nodal point of the lens.

An imaging module for reading targets by image capture is mounted as a unitary assembly within an imaging reader. An imager is mounted on a first printed circuit board (PCB), and an interface connector is mounted on a second PCB. The first PCB is in direct, surface-area contact with first chassis walls of a chassis and is positioned to lie in a generally upright, first predetermined plane. The second PCB is in direct, surface-area contact with second chassis walls of the chassis and is positioned to lie in a generally tilted, second predetermined plane that is inclined at a tilt angle relative to the first predetermined plane. The first and second chassis walls are constituted as a one-piece support that maintains the tilt angle between the PCBs.