Abstract:
An imaging control device according to an aspect of the present invention includes a rotation instruction input unit that receives an input of an instruction of rotation of a pan and tilt mechanism of a camera, a rotation instruction output unit that outputs the rotation instruction to the camera, an image input unit that receives a live view image according to the rotation instruction from the camera, and a display control unit that causes the display unit to perform a display for superimposing the live view image input from the camera on a limit display image of a two-dimensionally displayed spherical surface indicating an imagable region and a non-imagable region respectively corresponding to within a rotation limit and out of the rotation limit of the imaging unit of the camera, and rotating the limit display image along the two-dimensionally displayed spherical surface according to the input of the rotation instruction.
Abstract:
A smartphone which functions as a moving editing device includes: a wireless communication unit that is connected to plural cameras capable of performing moving image capturing in a wireless manner and acquires one or plural live view images from the plural cameras; a display panel that displays the acquired one or plural live view images; an operation panel that performs switching between live view images displayed on the display panel by a manual operation; a storage unit that stores operation history information indicating an operation history in the operation panel; and a main controller which functions as a moving image editing unit that performs moving image editing for automatically creating, after the moving image capturing in the plural cameras is terminated, one moving image based on plural moving images respectively captured by the plural cameras and the operation history information stored in the storage unit.
Abstract:
An image display method includes the steps of: acquiring a third image formed by applying dynamic range extension processing to a first image and a second image photographed with low sensitivity or low exposure with respect to the first image, or a fourth image without dynamic range extension processing; displaying the acquired image in a transmissive type display panel; and making backlight luminance of a segment corresponding to a high luminance portion in the third image higher than backlight luminance of a segment corresponding to a low luminance portion when the acquired image is determined to be the third image.
Abstract:
A camera apparatus (10) includes a degraded region information storage unit (24) that stores degraded region information for each direction in which degraded region data and an imaging direction are associated with each other, a direction recognition unit (30) that recognizes the imaging direction, and an image correction unit (32) that acquires degraded region data which is associated with the imaging direction recognized by the direction recognition unit (30) on the basis of the degraded region information for each direction and performs an image quality improvement process for the image data on the basis of a peculiar degraded region indicated by the degraded region data. The peculiar degraded region is a region related to a degradation element which is caused by at least one of the dome cover or the optical system and is based on at least one of a spatial frequency or signal intensity.
Abstract:
A live view control device according to an aspect of the present invention includes a display control unit that displays each of a plurality of live view images received from a plurality of imaging devices in each of a plurality of areas of a display screen, a priority setting unit that sets a priority of the plurality of live view images, a transfer condition setting unit that sets transfer conditions including at least one of a frame rate of transfer and an image size of the transfer of the plurality of live view images on the basis of the priority of the plurality of live view images, and a communication control unit that transmits a transfer instruction for a live view image according to the set transfer conditions to the plurality of imaging devices via the wireless communication unit.
Abstract:
On the basis of the image data obtained by the image data acquisition section, a target luminance calculation section calculates a target luminance, which is a target value for the luminance of emitted light for each segment region. An inverse filter acquisition section acquires an inverse filter of a light emission distribution function which represents light emission distribution characteristics of the light source for each segment region. A setting value calculation section calculates a setting value for the luminance of emitted light of the light source for each segment region by performing a convolution operation on the target luminance for each segment region with the inverse filter. On the basis of the setting value for each segment region calculated by the setting value calculation section, a light source control section controls the luminance of emitted light of the light source for each segment region.
Abstract:
When a user A of a terminal a sets to open image data, open data information relating to the image data is transmitted to a server 200, thereafter, when a terminal b enters the communication area X of the terminal a, image data and the ID thereof are transmitted to the terminal b from the terminal a, ID of the image data and receiving terminal information are transmitted to the server 200 from the terminal b and the receiving terminal information is recorded in a pair with open data information, thereafter, receiving terminal information is transmitted to the server 200, every time image data is transmitted between terminals 100, and is recorded in a pair with open data information.
Abstract:
A live view control device according to an aspect of the present invention includes a radio wave intensity detection unit that detects radio wave intensity with respect to each of a plurality of imaging devices, a priority setting unit that sets a priority of a plurality of live view images on the basis of the detected radio wave intensity, a transfer condition setting unit that sets transfer conditions including at least one of a frame rate of transfer and an image size of the transfer of each of the plurality of live view images on the basis of the priorities of the plurality of live view images, and a communication control unit that transmits the set transfer conditions to the plurality of imaging devices via a wireless communication unit.
Abstract:
An imaging control device 100 includes a control communication unit 110 that communicates with a plurality of imaging devices and an overall control unit 101. The overall control unit 101 transmits an imaging preparation command to prepare imaging to each of the plurality of imaging devices 10 through the control communication unit 110 in response to an instruction received through an instruction receiving unit, receives preparation completion information indicating the completion of preparation for imaging from each of the plurality of imaging devices 10 through the control communication unit 110, and transmits a captured image acquisition command to acquire a captured image to each of the plurality of imaging devices 10 through the control communication unit 110 after receiving the preparation completion information from the plurality of imaging devices 10.
Abstract:
Provided are an imaging device operation device, an operation method, and a program that can simply and rapidly operate a pan/tilt mechanism such that an imaging unit is located at a desired position. A pan/tilt operation device includes a touch panel in which a touch centering detection region is set, predetermined pan angle rotation instruction regions are set on the left and right sides of the touch centering detection region, and predetermined tilt angle rotation instruction regions are set on the upper and lower sides of the touch centering detection region, a touch centering instruction unit, a predetermined pan angle rotation instruction unit that outputs an instruction to pan a pan/tilt mechanism at a predetermined pan angle, and a predetermined tilt angle rotation instruction unit that outputs an instruction to tilt the pan/tilt mechanism at a predetermined tilt angle.