A system controls a brightness of an augmented reality (AR) eye-mounted device. The system includes an eye-mounted display, a photodetector system, and a controller. The eye-mounted display includes a contact lens and a femtoprojector. The femtoprojector is contained in the contact lens and is configured to project an AR image to a user's retina. The AR image is overlaid on an external scene viewed by the user through the contact lens. The photodetector system detects a brightness level of the external scene. Based on the brightness level of the external scene, the controller adjusts a brightness level of the AR image projected to the user's retina. In some embodiments, the eye-mounted display receives image data defining the AR image and the controller adjusts a bit depth of the image data based on the brightness level of the AR image.

[Object] To provide an information processing device, an information processing method, and a program. [Solution] An information processing device including: an acquisition unit configured to acquire attention information regarding an attention target of a user; and a zoom control unit configured to perform zoom control of a camera on the basis of non-zoom control of the camera and the attention information when the non-zoom control is performed on the basis of the attention information.

An information processing system that acquires first image data captured by a first camera unit disposed on a first side of a housing; acquires second image data captured by a second camera unit disposed on a second side of the housing, which is opposite to the first side of the housing; and modifies the second image data based on the first image data.

The imaging apparatus includes a first display device, a second display device, an eyepiece sensor that detects that an object approaches the first display device, and a controller that switches the eyepiece sensor to be valid and invalid. The controller sets the eyepiece sensor to be invalid when the first display device is not inclined while the second display device is inclined. The controller sets the eyepiece sensor to be valid when the first and second display devices are inclined.

A system controls a brightness of an augmented reality (AR) eye-mounted device. The system includes an eye-mounted display, a photodetector system, and a controller. The eye-mounted display includes a contact lens and a femtoprojector. The femtoprojector is contained in the contact lens and is configured to project an AR image to a user's retina. The AR image is overlaid on an external scene viewed by the user through the contact lens. The photodetector system detects a brightness level of the external scene. Based on the brightness level of the external scene, the controller adjusts a brightness level of the AR image projected to the user's retina. In some embodiments, the eye-mounted display receives image data defining the AR image and the controller adjusts a bit depth of the image data based on the brightness level of the AR image.

An electronic apparatus includes a control unit that performs control to acquire first orientation information indicating a first orientation of the body and first line-of-sight information about the user's line-of-sight, of a case where a first eye tracking calibration display is displayed on the screen, acquire second orientation information indicating a second orientation of the body different from the first orientation and second line-of-sight information about the user's line-of-sight, of a case where a second eye tracking calibration display is displayed on the screen, and cause, in a case where the second orientation information is different from the first orientation information, the screen to display a predetermined display that prompts the user to change the orientation of the body to the first orientation.

A system controls a brightness of an augmented reality (AR) eye-mounted device. The system includes an eye-mounted display, a photodetector system, and a controller. The eye-mounted display includes a contact lens and a femtoprojector. The femtoprojector is contained in the contact lens and is configured to project an AR image to a user's retina. The AR image is overlaid on an external scene viewed by the user through the contact lens. The photodetector system detects a brightness level of the external scene. Based on the brightness level of the external scene, the controller adjusts a brightness level of the AR image projected to the user's retina. In some embodiments, the eye-mounted display receives image data defining the AR image and the controller adjusts a bit depth of the image data based on the brightness level of the AR image.

An imaging apparatus includes an image capturing unit, a shutter button with which to give an image capturing instruction, a specific operation member, a reception unit configured to receive a line-of-sight input that is an input of a position based on a line of sight of a user, and a control unit configured to perform control so that, in a case where a predetermined operation on the specific operation member is not performed while a specific operation on the shutter button is being performed, a specified position is not moved based on the line-of-sight input in a case where a line-of-sight position of the line-of-sight input moves, and in a case where the predetermined operation on the specific operation member is performed while the specific operation on the shutter button is being performed, the specified position is moved based on the line-of-sight position of the line-of-sight input.

An electronic apparatus comprises an eye approach detection unit configured to detect an objective approaching to a finder, a sight line detection unit configured to detect a sight line position to a display unit that is arranged in the finder, and a control unit configured to perform control to drive the sight line detection unit and stop driving the approach detection unit when it is detected by the approach detection unit that an objective has been approached to the finder, wherein the control unit performs control to, based on a detection result of the sight line detection unit, drive the approach detection unit from a state in which a driving of the approach detection unit is stopped, and stop driving the sight line detection unit while driving the approach detection unit.

To enable a user who is moving through or past a scene, e.g., along a path through a landscape or surrounding environment, and who wishes to record an image thereof, and to acquire or keep images of interest to the user without separate actuations or handling of the named type, a system is provided for producing at least one image of the scene, having at least one device for recording the at least one image, a device for acquiring a behavior of at least one user, a control unit for evaluating the behavior of the at least one user and for obtaining therefrom at least one control signal for a controlling of the device, including a selection of a recording direction and of image segments or objects that are to be recorded, for recording the at least one image in accordance with the behavior of the at least one user.