The present technology relates to an imaging method of a satellite system and a transmission device that enable to perform imaging of an artificial satellite in accordance with an event having occurred on the ground, in remote sensing by the artificial satellite. The satellite system includes: the transmission device installed on the earth; and the artificial satellite having an imaging device. The transmission device transmits an imaging instruction to the artificial satellite passing in the sky, in accordance with a predetermined event detected by a sensor installed on the earth, and the artificial satellite performs imaging of an event occurrence region on the basis of the imaging instruction. The present technology can be applied to, for example, an artificial satellite or the like that performs satellite remote sensing.

The present invention relates to a method for generating control signals for an image capture device, the method being performed in a communication device comprising a first slave time generator and a second slave time generator, the communication device being connected to a first remote time server and a second remote time server, the method comprising: synchronizing the first slave time generator with the first remote time server; synchronizing the second slave time generator with the second remote time server; generating a first control signal based on the first clock, and sending the first control signal to the image capture device; and upon detecting a loss of synchronization between the first slave time generator and the first remote time server, generating a second control signal based on the second clock, and sending the second control signal to the image capture device.

A wearable camera includes an image capture device, a processor, and first and second memories. The image capture device images a subject. The first memory at least temporarily stores first communication setting information for communication with an in-vehicle communication device. The second memory stores a program that, when executed by the processor, causes the wearable camera to: perform a communication setting process that establishes a communication connection between the wearable camera and the in-vehicle communication device, delete the first communication setting information from the first memory after a lapse of a certain time from a timer reset, the timer reset occurring in response to establishment of the communication connection between the wearable camera and the in-vehicle communication device, and notify that the first communication setting information is not stored in the first memory, in response to determining that the first communication setting information is not stored in the first memory.

A control apparatus includes an acquisition unit configured to acquire information on a rotation of the first imaging unit in the rotation direction and position information of a designated range designated on a first image imaged by the first imaging unit, a setting unit configured to set the second imaging range so as to include the designated. range based on the information on the rotation and the position information, and a control unit configured to control the second imaging unit to instruct the second imaging unit to image the second imaging range and to acquire a second image by changing at least one of the imaging direction and the angle of view of the second imaging unit.

A system of multi-view imaging of an environment through which a target moves includes pluralities of drones, each drone having a drone camera.

A first plurality of drones moves to track target movement, capturing a corresponding first plurality of images of the target's face, making real time determinations of the target's head pose and gaze from the captured images and transmitting the determinations to a second plurality of drones. The second plurality of drones moves to track target movement of the target, with drone camera poses determined at least in part by the head pose and gaze determinations received from the first plurality of drones, in order to capture a second plurality of images of portions of the environment in front of the target. Post-processing of the second plurality of images allows generation of a first-person view representative of a view of the environment seen by the target.

A method at an image capture apparatus, the method including receiving, at the image capture apparatus, a trigger to begin image capture; based on the trigger, starting image capture for a fixed duration; and providing image capture data to a processing service.

Data transmission systems and methods. In one embodiment, a data transmission system includes a plurality of imaging devices, a plurality of control devices, and an information processing device. One of the plurality of control devices operates as a master control device and a remainder of the plurality of control devices operate as client control devices. The information processing device is configured to transmit an acquisition request for one or more images captured by a first imaging device of the plurality of imaging devices to the master control device. The master control device is configured to transfer the acquisition request to one of the client control devices that controls the first imaging device. In response to receiving the acquisition request, the one of the client control devices is configured to transfer a list of images captured by the first imaging device to the information processing device.

An apparatus includes a plurality of output ports and a processor. The output ports may each be configured to connect to a respective trigger device and generate an output signal to activate the respective trigger device. The processor may be configured to determine a number of the trigger devices connected to the output ports, determine a timing between each of the number of the trigger devices connected, convert the timing for each of the trigger devices to fit a standard timing using offset values specific to each of the trigger devices and perform a trigger routine to trigger the output signal for each of the trigger devices connected. The trigger routine may activate each of the trigger devices connected according to an event. The offset values may delay triggering the trigger devices to ensure that the trigger devices are sequentially activated at intervals that correspond consistently with the standard timing.

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.

An image processor according to the present disclosure includes: a multiplier that receives image data from a pixel section including pixels of a plurality of colors and multiplies the image data by an adjustment parameter that adjusts a color level in each of the pixels; an adjuster that calculates a ratio of respective colors in each of the pixels in the image data and adjusts a value of the adjustment parameter on the basis of the ratio of the respective colors; and a binarization processor that extracts a target image of a specific color on the basis of the image data multiplied by the adjustment parameter.