A screen control method is provided. The method is implemented in a terminal device having a first screen, a second screen, and a lens, the first screen and the second screen being disposed facing against one another. The method includes obtaining a command configured to instruct to display the image captured by the lens on the second screen. The method also includes controlling display of the image captured by the lens on the second screen based on the command.

A zoom lens includes an N-1-th lens unit disposed second closest to the image side and an N-th lens unit disposed closest to the image side. The N-1-th lens unit and the N-th lens unit each includes a cemented lens, and move at zooming. For at least one of the N-1-th lens unit and the N-th lens unit, the relationship between the radius of curvature of a cemented surface of the cemented lens and the distance from the cemented surface to an image plane, the value of the larger amount of the amount of movement of the N-1-th lens unit and the amount of movement of the N-th lens unit at zooming from the wide-angle end to the telephoto end, the overall lens length at the wide-angle end, the focal length of the zoom lens at the wide-angle end, and a back focus at the wide-angle end are determined.

An array imaging module includes at least two optical lenses and a molded photosensitive assembly, wherein the molded photosensitive assembly includes at least two photosensitive units, a circuit board that electrically couples to the photosensitive units, and a molded base having at least two optical windows. The molded base is integrally coupled at the circuit board at a peripheral portion thereof, wherein the photosensitive units are aligned with the optical windows respectively. The optical lenses are located along two photosensitive paths of the photosensitive units respectively, such that each of the optical windows forms a light channel through the corresponding photosensitive unit and the corresponding optical lens.

A screen control method is provided. The method is implemented in a terminal device having a first screen, a second screen, and a lens, the first screen and the second screen being disposed facing against one another. The method includes obtaining a command configured to instruct to display the image captured by the lens on the second screen. The method also includes controlling display of the image captured by the lens on the second screen based on the command.

The shape of a camera body of a digital camera including a printer viewed from the front surface is a square shape, and an imaging optical system is positioned at the center of a camera body. An axis crossing an optical axis of the imaging optical system in a vertical direction is referred to as a vertical axis, and an axis crossing the optical axis in a horizontal direction is referred to as a horizontal axis. A grip portion is formed on the camera body at positions that are symmetric with respect to the vertical axis and symmetric with respect to the horizontal axis. The grip portion has an annular shape and a concave shape that is concave from the surface around the grip portion. The imaging optical system is positioned at the center of the annular grip portion in a case where the digital camera including a printer is viewed from the front surface of the camera body.

The shape of a camera body of a digital camera including a printer viewed from the front surface is a square shape, and an imaging optical system is positioned at the center of a camera body. An axis crossing an optical axis of the imaging optical system in a vertical direction is referred to as a vertical axis, and an axis crossing the optical axis in a horizontal direction is referred to as a horizontal axis. A grip portion is formed on the camera body at positions that are symmetric with respect to the vertical axis and symmetric with respect to the horizontal axis. The grip portion has an annular shape and a concave shape that is concave from the surface around the grip portion. The imaging optical system is positioned at the center of the annular grip portion in a case where the digital camera including a printer is viewed from the front surface of the camera body.

A lens module is provided, including: a lens barrel including first and second barrel walls; and a set of lenses received in the lens barrel and including at least a first lens and a second lens arranged from an object side to an image side. The first lens includes a first optical portion and a first peripheral portion surrounding the first optical portion. A surface of the first barrel wall close to the image side includes a first planar surface extending horizontally towards an optical axis from a position where the first barrel wall is connected to the second barrel wall; a first oblique surface extending obliquely from the first planar surface towards the optical axis and towards the image side; and a second planar surface extending horizontally from the first oblique surface towards the optical axis.

A lens module includes a lens barrel and a lens group having a first second lenses. An image side surface of a first barrel wall includes a first planar surface, a first oblique surface extending towards the optical axis and towards the image side, and a second planar surface. An object side surface of a peripheral portion of the first lens includes a third planar surface attached to the first planar surface and a second oblique surface attached to the first oblique surface. An image side surface of the peripheral portion of the first lens includes a fifth planar surface, a third oblique surface extending towards the optical axis and towards the image side, and a sixth planar surface. An object side surface of the second lens includes a seventh planar surface attached to the fifth planar surface and a fourth oblique surface paced apart from the third oblique surface.

A camera accessory, at which light from a subject enters, detachably mountable at a camera body, includes: a communication unit that communicates with the camera body; and a first storage unit that stores a discriminating signal indicating whether or not another device capable of communicating with the camera body is mountable on a subject side of the camera accessory, wherein: the communication unit transmits the discriminating signal to the camera body.

The present disclosure relates to an image processing device and an image processing method capable of generating a high-quality composite image. Exposure time and exposure timing of a basic imaging unit which images a basic image and a plurality of auxiliary imaging units which may image under an imaging condition independent from that of the basic imaging unit are controlled according to a motion amount. The present disclosure is applicable to an image processing device.