A device (100) for compensating for part of the visual field comprises a wearable frame (110) configured to rest upon the face of a subject. An image capture device (120) is configured to capture an image from a first region (20) of the subject's visual field the first region being identified as a region of the visual field in which the subject's vision is impaired, and relay the image to an image display unit (130). The image display unit (130) is configured to project the image onto a region of the subject's retina that corresponds to a second region of the subject's visual field, in which the subject's vision is identified as non-impaired. Associated methods are also described.

A camera system includes an image sensor, a lens mount configured to detachably hold a lens unit, a support mechanism configured to rotatably support the lens mount and the image sensor, a main body configured to hold the support mechanism, and a support configured to support the lens mount to maintain a position of the lens mount relative to the main body.

The invention relates first to a camera module for a microscope. The camera module comprises an optical interface for inserting the camera module into an imaging beam path of the microscope, which imaging beam path images a nominal intermediate image. Furthermore, the camera module comprises an electronic image converter and a functional element for changing an intermediate image plane, which functional element is arranged in a beam path of the camera module between the optical interface and the image converter. The camera module also comprises a first optical assembly having an optical power, which first optical assembly is arranged in the beam path between the optical interface and the image converter. According to the invention, a distance between the functional element and the optical interface along the beam path or a distance between the first optical assembly and the optical interface along the beam path can be changed. The invention further relates to a method for operating the camera module.

Various embodiments of the present application are directed towards an image sensor including a wavelength tunable narrow band filter, as well as methods for forming the image sensor. In some embodiments, the image sensor includes a substrate, a first photodetector, a second photodetector, and a filter. The first and second photodetectors neighbor in the substrate. The filter overlies the first and second photodetectors and includes a first distributed Bragg reflector (DBR), a second DBR, and a first interlayer between the first and second DBRs. A thickness of the first interlayer has a first thickness value overlying the first photodetector and a second thickness value overlying the second photodetector. In some embodiments, the filter is limited to a single interlayer. In other embodiments the filter further includes a second interlayer defining columnar structures embedded in the first interlayer and having a different refractive index than the first interlayer.

An optical device and a method for high-resolution image transfer are provided. The optical device includes an image-guiding element having a distal end and a proximal end, an inverting reflection prism having an entry face and an exit face, and a display element. The image-guiding element directs light beams into the inverting reflection prism, and after having passed therethrough they are directed to the display element, the image-guiding element being mounted for non-stop rotation over more than 360. The light entry face and the light exit face of the image-guiding element define an angle to one another which is between 5 and 175.

A video endoscope including: an elongated shaft having distal and proximal ends; an objective lens arranged in the shaft; and an image sensor arranged proximally to the objective lens; wherein the objective lens includes distal and proximal objective lens assemblies; the image sensor rotates about an axis of the shaft relative to the distal objective lens assembly which is arranged in an outer tube; a torque for rotating the image sensor is transmitted by an inner tube, which is arranged in the outer tube, the inner tube being rotatably fixed and axially slidably connected to a frame receiving the image sensor, the inner tube and the frame each including coupling portions that engage coaxially; one the coupling portions includes cut-outs extending parallel to the axis; and another includes elastic protrusions, the elastic protrusions extending toward and engage in a corresponding cut-out.

An imaging system includes an image generating device, a first reflecting mirror, a second reflecting mirror, and an image combiner. The image generating device projects a light onto the first reflecting mirror along a first optical path. The first optical path is reflected by the first reflecting mirror to form a second optical path. An angle included between the first optical path and a normal of the first reflecting mirror is smaller than 45 degrees. The second optical path is reflected by the second reflecting mirror to form a third optical path. An angle included between the second optical path and a normal of the second reflecting mirror is smaller than 45 degrees. The third optical path forms a virtual image through the image combiner. An angle included between the third optical path and a normal of the image combiner is smaller than 45 degrees.

A payload module of a stratospheric drone including a casing (10), and payload equipment contained in the casing (10), wherein the casing includes a support structure (12) and a cover (15), the support structure being suitable for attachment to the drone at the front end thereof, relative to the direction of movement of the drone, and for extending forward from said front end, and in that the cover (15) and the payload equipment are supported by the support structure (12).

Cameras with panoramic scanning range comprising a folded digital camera in which an optical path folding element (OPFE) that folds a first optical path from an object or scene into a second optical path substantially parallel with an optical axis of a lens of the folded camera, the OPFE being rotatable around the lens optical axis, and systems incorporating such cameras.

Cameras with panoramic scanning range comprising a folded digital camera in which an optical path folding element (OPFE) that folds a first optical path from an object or scene into a second optical path substantially parallel with an optical axis of a lens of the folded camera, the OPFE being rotatable around the lens optical axis, and systems incorporating such cameras.