This invention teaches a binocular telescope wherein wedge prisms are positioned in the optical path of each telescope to control the amount of perceived parallax between the left and the right images. In one embodiment, a pair of thin wedge prisms are positioned in front of the objective lenses to optically manipulate the real convergence angle of an object viewed through the binocular telescope. In a second embodiment, wedge prisms are positioned after the eyepiece lenses to manipulate the apparent convergence angle of an object viewed through the binocular telescope. Depending on the position and the orientation of the wedge prisms, the invention produces benefits such as better depth perception, increased field of view, and the possibility to view close objects.

This invention teaches a binocular telescope wherein wedge prisms are positioned in the optical path of each telescope to control the amount of perceived parallax between the left and the right images. In one embodiment, a pair of thin wedge prisms are positioned in front of the objective lenses to optically manipulate the real convergence angle of an object viewed through the binocular telescope. In a second embodiment, wedge prisms are positioned after the eyepiece lenses to manipulate the apparent convergence angle of an object viewed through the binocular telescope. Depending on the position and the orientation of the wedge prisms, the invention produces benefits such as better depth perception, increased field of view, and the possibility to view close objects.

A binocular device for visualizing optical radiation comprises a support structure, a left camera, and a right camera coupled to the support structure. The left camera comprising left optics and a left image sensor, the right camera comprising right optics and a right image sensor, the left image sensor and the right image sensor being configured to create left and right video signals from detected optical radiation received from the corresponding left and right input optics about a same field of view along respective left and right input optical axes. A specular reflection is detected.

A selectable fixed-focus binocular that is highly functional and simple to operate for the end consumers. The binocular combines the close and fine focusing advantages of a traditional binocular with the ease of use offered in a fixed-focus or focus-free style unit to make a versatile, user-selectable focus style binocular. The end-user can use the binocular in a typical, manual focus mode or manipulate the control knob to transition for use as a simple, fixed-focus unit.

A selectable fixed-focus binocular that is highly functional and simple to operate for the end consumers. The binocular combines the close and fine focusing advantages of a traditional binocular with the ease of use offered in a fixed-focus or focus-free style unit to make a versatile, user-selectable focus style binocular. The end-user can use the binocular in a typical, manual focus mode or manipulate the control knob to transition for use as a simple, fixed-focus unit.

A display device includes: a first closed-bottom lens tube including a first display part on the closed bottom for displaying a first image; a second closed-bottom lens tube including a second display part on the closed bottom for displaying a second image; an adjustment mechanism including a first rod that extends from the first lens tube and a second rod that extends from the second lens tube and is rotatably connected to the first rod; and an image outputter that outputs the first and second images to the first and second display parts, respectively. The image outputter, in accordance with the angle of rotation of the first and second rods of the adjustment mechanism, controls and outputs the first and second images to bring the horizontal directions thereof closer to the arrangement direction of the first and second lens tubes.

An anti-reflective device that is to be attached to a variety of types or sizes of optical products via side members. The anti-reflective device is to be used on optical products such binoculars, monocular, rifle scopes, and spotting scopes, to prevent the return to an object of visible reflections of light emitted from the surface of the objective lens of an optical product. In a simple one-handed motion, the anti-reflective device is to be clamped to the external body of an optical product, used as an anti-reflective device, and removed via a simple one-handed motion.

An anti-reflective device that is to be attached to a variety of types or sizes of optical products via side members. The anti-reflective device is to be used on optical products such binoculars, monocular, rifle scopes, and spotting scopes, to prevent the return to an object of visible reflections of light emitted from the surface of the objective lens of an optical product. In a simple one-handed motion, the anti-reflective device is to be clamped to the external body of an optical product, used as an anti-reflective device, and removed via a simple one-handed motion.

Imaging systems that automatically calculate, in real time, relative locations of acquired targets relative to datum targets. In some embodiments, an imaging system of this disclosure can be instantiated as a handheld imaging device having a live-view imaging system or a thermal imaging system, or both. Some embodiments include a ranging system that fires upon the release of a hard button to minimize movement of the imaging system during target acquisition. Some embodiments include speed estimating and/or time of arrival estimating features. Some embodiments can communicate with an external device, such as a central controller device. A central controller device of this disclosure may include triangulation, speed estimating, and/or time of arrival estimating features. Some embodiments of a central control device may allow users to set up and make mission assignments. Some embodiments allow sharing of data among devices, in some cases only on a mission-by-mission basis.

A prism module includes a first prism including a first surface, a second surface and a third surface, a roof prism including a roof surface and a fourth surface, a second prism including a fifth surface, a sixth surface and a seventh surface, and a third prism including a light access surface, a first reflecting surface and a second reflecting surface. A light source is disposed above the second prism and adjacent to the first and the roof prisms. A light beam emitted by the light source enters and is reflected by the third prism, enters the second prism through the seventh surface, passes through the sixth surface, enters the first prism through the third surface, and is reflected by the second surface to leave the prism module. The light beam leaving the prism module is parallel to a baseline passing through the first, the second and the fourth surfaces.