An image capturing control apparatus includes a detection unit configured to detect a specific object area in an image captured by an image capturing apparatus, an acquisition unit configured to acquire a first input/output characteristic of the image capturing apparatus, a conversion unit configured to convert the image by acquiring a second input/output characteristic that is an inverse input/output characteristic to the first input/output characteristic, and by applying the second input/output characteristic to the image, and a control unit configured to control exposure of the image capturing apparatus based on a luminance value of the specific object area in the converted image.

A dual-aperture zoom camera comprising a Wide camera with a respective Wide lens and a Tele camera with a respective Tele lens, the Wide and Tele cameras mounted directly on a single printed circuit board, wherein the Wide and Tele lenses have respective effective focal lengths EFL.sub.W and EFL.sub.T and respective total track lengths TTL.sub.W and TTL.sub.T and wherein TTL.sub.W/EFL.sub.W>1.1 and TTL.sub.T/EFL.sub.T<1.0. Optionally, the dual-aperture zoom camera may further comprise an optical OIS controller configured to provide a compensation lens movement according to a user-defined zoom factor (ZF) and a camera tilt (CT) through LMV=CT*EFL.sub.ZF, where EFL.sub.ZF is a zoom-factor dependent effective focal length.

A digital camera with a printer is a digital camera with a printer and includes a communication unit that communicates with a digital camera with a printer that is another apparatus, and an image composition unit that generates a composite image in which a first image captured by the digital camera with a printer that is an owned apparatus and a second image captured by the other apparatus are composited, in which the communication unit transmits the composite image to the other apparatus. A user of the other apparatus can also obtain the composite image. Accordingly, the composite image can be enjoyed by capturing images using a plurality of cameras.

A camera, having: microphones including: a first microphone; and a second microphone. The camera including a sensor controller. The sensor controller being configured to receive audio, select between the microphones, and record the audio. The sensor controller receives the audio inputs from the first microphone and the second microphone. The sensor controller selects the first microphone or the second microphone based on the audio inputs so that one of the first and second microphones is a selected microphone, wherein the selected microphone receives the audio input having the lowest level of background noise within a predetermined frequency range associated with background noise. The sensor controller records audio data from only the selected microphone.

Systems and methods facilitate digital zoom of live video based on remote user instructions. A user of a remote device may desire to zoom in on a particular aspect of a copy of a full image captured by a sensor at a first resolution and communicated to the remote device at a second resolution less than the first resolution. A selection that corresponds to a user-selected area of the copy and corresponding to a portion of the sensor is received by the sensor. Based on the selection, an instruction is generated to capture a second electronic image utilizing the portion of the sensor with the first resolution. Thus, rather than zooming into the first electronic image at the second resolution, the second electronic image corresponding to the portion of the sensor is captured at the first resolution and then converted to the second resolution, resulting in a higher resolution zoom.

Techniques to selectively capture media using a single user interface element are described. In one embodiment, an apparatus may comprise a touch controller, a visual media capture component, and a storage component. The touch controller may be operative to receive a haptic engagement signal. The visual media capture component may be operative to be configured in a capture mode based on whether a haptic disengagement signal is received by the touch controller before expiration of a first timer, the capture mode one of a photo capture mode or video capture mode, the first timer started in response to receiving the haptic engagement signal, the first timer configured to expire after a first preset duration. The storage component may be operative to store visual media captured by the visual media capture component in the configured capture mode. Other embodiments are described and claimed.

A communication terminal acquires a captured image from an image capturing apparatus and transfers the captured image to a server. The communication terminal includes: a first communication unit configured to communicate with the image capturing apparatus; a second communication unit configured to communicate with the server; a display unit configured to communicate with the image capturing apparatus, acquire, from the image capturing apparatus, a captured image managed by the image capturing apparatus, and display the captured image; a sound input unit configured to accept sound input for generating a terminal sound memo related to the displayed captured image; a storage unit configured to store the generated terminal sound memo in association with the captured image; and a control unit configured to perform control so that the second communication unit transfers, to the server, the acquired captured image and the generated terminal sound memo associated with the captured image.

A display device, method, computer-readable storage medium and user interface, each of which detects contact to or proximity of an object with respect to a generated image, and responsive to detection of contact to or proximity of the object to the generated image, disables any operational functions associated with a first portion of the generated image. Additionally, operation associated with a second portion of the generated image is allowed responsive to the detection of contact to or proximity of the object to the generated image, where the second portion of the generated image is different from the first portion of the generated image. An indication corresponding to the second portion of the generated image for which operation is enabled may be displayed on the generated image.

An information processing apparatus includes a controller that acquires images captured by a camera mounted in a vehicle, and a memory that can store the images. The controller acquires travel data on the vehicle for when the image was captured and stores the image in the memory in a case in which the travel data satisfies a predetermined condition.

Throughput reduction in autonomous vehicle camera sensors, including: generating, by a camera sensor, a frame; selecting an area of focus for the frame; and generating, by the camera sensor from the frame, a downsampled frame and a cropped frame, wherein the cropped frame is based on the area of focus.