Abstract: An image capturing device includes a housing and a processor. The processor is configured to determine whether a state of movement of the housing relative to an observation target is either a first state or a second state, and perform a control based on the state of the movement of the housing to cause change in electric energy for drive of the image capturing device.

Abstract: According to some embodiments, a camera captures a plurality of images of substantially the same scene at different exposure levels for each video frame to be captured. These images are then deghosted, merged or fused, and processed using a spatially, and optionally also temporally, varying tonemapping operator, and the resulting image after some further finishing is written into a video stream. In some embodiments, this processing is performed in real time on a graphics processing unit present in the device containing the camera. Other applications are shown and discussed.

Abstract: An image capture device may capture two hemispherical views of a scene. The two hemispherical view of the scene may be stitched along a stitch line. The image capture device may be rotated to align the stitch line with a mid-line of a panoramic field of view of the scene. Separate exposure settings may be used to capture the two hemispherical views of the scene, with the exposure settings increasing the dynamic range of the scene depicted within the panoramic field of view of the scene. The panoramic field of view of the scene may be punched out as panoramic visual content.

Abstract: Push-cables and associated apparatus for pipe inspection systems are disclosed. In one embodiment a pipe inspection system includes a camera head, a push-cable including an outer covering enclosing a plurality of electrical conductors for transmitting signals and/or power between the camera head and an electronic device operatively coupled to the push-cable, and a spring assembly disposed about the push-cable near the distal end where the spring assembly comprises a spring with a tapered flex section having a varying cross-sectional area and/or a varying cross-sectional shape.

Abstract: A method for correcting a camera by using a plurality of pattern members placed on the ground of a vehicle enables receiving pattern information of a plurality of pattern members by using a plurality of cameras disposed on the circumference of a vehicle being driven, calculating a first parameter on the basis of the pattern information, calculating trajectory information of the vehicle by using the pattern information, and calculating a second parameter by correcting the first parameter on the basis of the trajectory information of the vehicle.

Abstract: A display control apparatus comprises a first display unit capable of being viewed via an eyepiece part, a second display unit capable of being viewed without the eyepiece part, an eye approach detection unit configured to detect an eye approaching to the eyepiece part, a sight line detection unit configured to detect a sight line of the eye that is viewing the first display unit via the eyepiece part, and a control unit configured to perform control to stop display of the first display unit if a sight line is not detected by the sight line detection unit within a first time period in a state where the eye approaching is being detected by the eye approach detection unit.

Abstract: An image sensing device includes an analysis module suitable for analyzing, based on pixel values of a kernel, an image texture of the kernel including a target pixel group and one or more adjacent pixel groups, a sum module suitable for generating any one of a first target sum value and a second target sum value based on an analysis result of the analysis module, wherein first target sum value is obtained by applying texture characteristics of the kernel in target pixel values of the target pixel group and the second target sum value is obtained without applying the texture characteristics of the kernel in the target pixel values, and a processing module suitable for generating a sum image based on any one of the first and second target sum values.

Abstract: An image capture device may include one or more optical elements. One or more lens covers may be used to cover the optical element(s). Usage of the lens cover(s) with respect to the optical element(s) may be determined. The operation of the image capture device may be changed based on whether the lens cover(s) are on or off the optical element(s).

Abstract: This application discloses a video image anti-shake method and a terminal, and relates to the field of image processing, to implement compensation for translational shake in a Z direction. A video image anti-shake method includes: turning on, by a terminal, a camera lens, and photographing a video image by using the camera lens; detecting, by the terminal, shake on an X-axis, a Y-axis, and a Z-axis during photographing, where the Z-axis is an optical axis of the camera lens, the X-axis is an axis perpendicular to the Z-axis on a horizontal plane, and the Y-axis is an axis perpendicular to the Z-axis on a vertical plane; and performing, by the terminal, anti-shake processing on the video image based on the shake on the X-axis, the Y-axis, and the Z-axis. Embodiments of this application are applied to video image anti-shake.

Abstract: The present disclosure relates to cantilevered imaging modality wearable optical systems that provide for optimal ergonomics coupled with vision enhancement and vision magnification. Methods of use, devices, and kits are also contemplated.

Abstract: Portable pipe inspection video systems are disclosed. The system may include a camera head, a push-cable, a cable reel, and a camera controller having a built-in transmitter for energizing a pipe-inspection cable for magnetic field tracing applications.

Abstract: A magnetic levitation camera apparatus and its operation are disclosed. The magnetic levitation camera apparatus comprises a base module and a camera module. The base module includes a base casing and a first magnetic component. The camera module includes a camera casing separate from the base casing, a camera communication unit, a second magnetic component, and at least one camera device. One of the first magnetic component and the second magnetic component is electrified to repel the other one of the first magnetic component and the second magnetic component, so that the camera module is magnetically levitated from the base module. The camera communication unit is configured to communicate with at least one of an external router and a data storage server, and the captured information is transmitted via the external router to a remote electronic device or to the data storage server.

Abstract: Annotation techniques are implemented in an augmented reality environment. A user is presented with a GUI configured to place three-dimensional virtual annotations in an environment displayed via the user's computing device. The GUI presents a central GUI element that is center-locked with respect to the environment displayed via the user's computing device. The central GUI element is coplanar to a detected surface of the environment on which the central GUI element is virtually located. The annotation may be a three-dimensional arrow. While viewing the environment, a preview of the three-dimensional arrow pointing towards the central GUI element is presented to the user. Upon providing user input, the arrow is placed on the detected surface. The user may provide additional input that rotates the three-dimensional arrow around the central GUI element before placing the arrow.

Abstract: An electronic apparatus according to the present invention, includes at least one memory and at least one processor which function as: an acquisition unit configured to acquire a captured image; and a control unit configured to control so as to extract a partial range of an image acquired by the acquisition unit and record a moving image that is not a VR image in a storage, and control so as to record a still image that is a VR image in the storage based on the acquired image.

Abstract: A photoelectric conversion device includes: pixels forming columns and each configured to output a pixel signal; and comparator units provided to respective columns and each configured to receive the pixel signal from the pixels on a corresponding column and the reference signal. Each comparator unit includes a comparator having a first input node that receives the pixel signal and a second input node that receives the reference signal, a first capacitor that connects a reference signal line and the second input node, a second capacitor whose one electrode is connected to the second input node, and a select unit that connects the other electrode of the second capacitor to either the reference signal line or a reference voltage line. The other electrode of the second capacitor is connected to the reference signal line during first mode AD conversion and connected to the reference voltage line during second mode AD conversion.

Abstract: An operating method of an AR glass apparatus includes obtaining a preview image through a camera of the apparatus, tracking a gaze direction of a user wearing the apparatus, determining an object of interest in the preview image based on the tracked gaze direction, obtaining local motion information indicating a movement of the object of interest by tracking the movement of the object of interest, measuring a movement of the apparatus, obtaining global motion information indicating a movement of a background region included in the preview image based on the measured movement of the apparatus, adjusting a degree of exposure based on the local motion information and the global motion information, and photographing a front of the apparatus through the camera having the adjusted degree of exposure.

Abstract: A computer-implemented method, a computer system and a computer program product enhance multimedia quality. The method includes receiving a plurality of sequential frames of a scene in a video. The method also includes generating dataframes for current frames and for a reference frame of the video. The method further includes comparing the dataframes for the reference and current frames. In addition, the method includes determining a quality metric of the current frames based on the comparison of the dataframes for the reference and current frames. The method also includes determining if the quality metric can be improved by altering the video in response to determining that the quality metric of one of the current frames is below a threshold. Finally, the method includes inserting expansion frames into the video in response to determining that the quality metric can be improved by altering the video.

Abstract: A partial image generating device has a processor configured to generate a partial image from an image in which the environment surrounding a vehicle has been photographed using an imaging device provided in the vehicle, and to assess whether or not the road represented in the image is straight. The processor is configured so that, when it has been assessed that the road represented in the image is straight, it generates a partial image by cutting out a first region in the image that is estimated to contain the road, based on the vanishing point of the road, and when it has assessed that the road represented in the image is not straight, it generates a partial image by cutting out a second region in the image determined based on the type of the vehicle.

Abstract: An electronic device is provided, which includes a body, a camera module, at least one sensor, and a processor. The camera module is rotatably disposed on the body. The sensor is disposed in the electronic device for generating an environmental sensing signal. The processor is electrically connected to the camera module and the sensor. The processor loads and executes an application to perform: generating a display image; controlling the camera module to capture a face image and combining the face image and the display image into a live stream image when a show face function of the application is activated; and when the electronic device is in the live stream mode and the processor determines that an environment dynamic change occurs according to the environmental sensing signal, the processor transmits a notification signal to the application to notify the application to close the show face function.

Abstract: An electronic device comprising: a control unit configured to perform control such that, in case a first option group is displayed in a state incapable of receiving option selection by a line of sight input, the first option group is moved, and a second option group that includes a plurality of options including one or more options included in the first option group and one or more options not included in the first option group is displayed, in accordance with an operation on an operation member for selecting any one option of the first option group, and in case a third option group is displayed in a state capable of receiving the option selection by the line of sight input, any one option of the third option group is selected without moving the third option group, in accordance with the line of sight input.