A sensor-stabilization assembly includes: a housing including a first portion of a first electromagnetic assembly and of a second electromagnetic assembly and defining a housing aperture; a first frame having first guides that permit relative motion between the first frame and the housing and defining a first frame aperture; and a second frame having second guides that permit relative motion between the second frame and the first frame. The second frame includes: a second portion of the first electromagnetic assembly adapted to interact with the first portion to cause the first frame and second frame to move relative to the housing; and a second portion of the second electromagnetic assembly adapted to interact with the first portion to cause the second frame to move relative to the first frame and housing. A sensor is coupled to the second frame to capture light through the housing aperture and first frame aperture.

A sensor-stabilization assembly includes: a housing including a first portion of a first electromagnetic assembly and of a second electromagnetic assembly and defining a housing aperture; a first frame having first guides that permit relative motion between the first frame and the housing and defining a first frame aperture; and a second frame having second guides that permit relative motion between the second frame and the first frame. The second frame includes: a second portion of the first electromagnetic assembly adapted to interact with the first portion to cause the first frame and second frame to move relative to the housing; and a second portion of the second electromagnetic assembly adapted to interact with the first portion to cause the second frame to move relative to the first frame and housing. A sensor is coupled to the second frame to capture light through the housing aperture and first frame aperture.

A camera array, an imaging device and/or a method for capturing image that employ a plurality of imagers fabricated on a substrate is provided. Each imager includes a plurality of pixels. The plurality of imagers include a first imager having a first imaging characteristics and a second imager having a second imaging characteristics. The images generated by the plurality of imagers are processed to obtain an enhanced image compared to images captured by the imagers. Each imager may be associated with an optical element fabricated using a wafer level optics (WLO) technology.

The image processing apparatus includes a determining part configured to determine, from a difference between information on color of a first pixel in a first image and information on color of a second pixel corresponding to the first pixel in a second image, whether or not the first image includes color blur due to defocus, the first and second images being generated by an image-pickup system and whose focus states are mutually different. The apparatus further includes a correcting part configured to perform on the first image a correction process that corrects the color blur determined by the determining part.

A camera array, an imaging device and/or a method for capturing image that employ a plurality of imagers fabricated on a substrate is provided. Each imager includes a plurality of pixels. The plurality of imagers include a first imager having a first imaging characteristics and a second imager having a second imaging characteristics. The images generated by the plurality of imagers are processed to obtain an enhanced image compared to images captured by the imagers. Each imager may be associated with an optical element fabricated using a wafer level optics (WLO) technology.

A controller controls a camera that produces a sequence of images and that has output coupled to a video encoder. The camera has an operating condition including a field of view and lighting, and one or more imaging parameters. The video encoder encodes images from the camera into codewords. The controller receives one or more encoding properties from the video encoder, and causes adjusting one or more of the imaging parameters based on at least one of the received encoding properties, such that the camera produces additional images of the sequence of images for the video encoder using the adjusted one or more imaging parameters.

A pair of AR glasses is a display device of a transmission type mountable to a head of a user. An image capture device outputs a captured image obtained by capturing an image of an area in front of the user. An inertia measurement device detects a physical quantity concerning the movement of the head of the user. A display controller displays on the pair of AR glasses a guide image indicating an outer edge of the captured image, in a display period from a start timing to an end timing determined based on at least an output signal from the inertia measurement device.

Methods, systems, and apparatus, including computer programs encoded on computer storage media, for resolving erroneous movement signals and for providing navigation instructions. One of the methods includes receiving data from two or more sensors, synchronizing the received data, determining a first subset of the synchronized data from the camera for a particular period of time and a second subset of the synchronized data from the other sensor for the particular period of time, comparing the first subset with the second subset to determine whether the first subset and the second subset indicate an erroneous movement signal, based on determining that the first subset and the second subset indicate an erroneous movement signal, selecting data for one of the sensors based on a sensor priority scheme for the sensors, and resolving the erroneous movement signal based on the selected data for the one of the sensors.

A sensor-stabilization assembly includes: a housing including a first portion of a first electromagnetic assembly and of a second electromagnetic assembly and defining a housing aperture; a first frame having first guides that permit relative motion between the first frame and the housing and defining a first frame aperture; and a second frame having second guides that permit relative motion between the second frame and the first frame. The second frame includes: a second portion of the first electromagnetic assembly adapted to interact with the first portion to cause the first frame and second frame to move relative to the housing; and a second portion of the second electromagnetic assembly adapted to interact with the first portion to cause the second frame to move relative to the first frame and housing. A sensor is coupled to the second frame to capture light through the housing aperture and first frame aperture.

A sensor-stabilization assembly includes: a housing including a first portion of a first electromagnetic assembly and of a second electromagnetic assembly and defining a housing aperture; a first frame having first guides that permit relative motion between the first frame and the housing and defining a first frame aperture; and a second frame having second guides that permit relative motion between the second frame and the first frame. The second frame includes: a second portion of the first electromagnetic assembly adapted to interact with the first portion to cause the first frame and second frame to move relative to the housing; and a second portion of the second electromagnetic assembly adapted to interact with the first portion to cause the second frame to move relative to the first frame and housing. A sensor is coupled to the second frame to capture light through the housing aperture and first frame aperture.