A 3D play system is provided. The system includes a head-mounted/headset device. The head-mounted device includes a supporting structure; a first lens; and a second lens. The supporting structure is configured to support two display devices. The first lens is configured to zoom an image displayed by a first device and project the zoomed image onto a left eye. The second lens is configured to zoom an image displayed by a second display device and project the zoomed image onto a right eye. The 3D play system imposes less limitation on watching environment and allows a user to watch 3D images conveniently.

Provided is a zoom lens including: a lens unit Ln1 having a negative refractive power; a lens unit Ln2 having a negative refractive power; a lens unit Lp1 having a positive refractive power; and a rear lens group including one or more lens units, the lens unit Ln1, the lens unit Ln2, the lens unit Lp1, and the rear lens group being successively arranged in order from an object side to an image side, in which the lens unit Ln1 and the lens unit Lp1 are moved along the same locus during zooming, and in which the lens unit Ln2 is moved toward the object side during focusing from infinity to proximity.

The type of lens attached to the lens attaching portion is determined. In a case of the multiple-property lens being attached to the lens attaching portion, a plurality of images corresponding to the plurality of areas is generated. In a case of the typical lens being attached thereto, one image is generated from imaging signals of all pixels of the directional sensor. In the case of the multiple-property lens being attached to the lens attaching portion, performed is correction of removing, from an image generated in correspondence with one area of the plurality of areas, influence of a luminous flux passing an area other than the one area. In the case of the typical lens being attached thereto, a difference in sensitivity for each pixel of a plurality of types of pixels is corrected.

A teleconverter lens consists essentially of, in order from the object side: a front group having a positive refractive power; and a rear group having a negative refractive power, wherein the front group and the rear group are separated from each other by the widest air space, the front group consists essentially of one positive lens having a convex surface toward the object side, and the rear group includes, in order from the object side, at least one negative lens having a concave surface toward the image side, and at least one positive lens having a convex surface toward the object side.

A teleconverter lens consists essentially of, in order from the object side: a front group having a positive refractive power; and a rear group having a negative refractive power, wherein the front group and the rear group are separated from each other by the widest air space, the front group consists essentially of one positive lens having a convex surface toward the object side, and the rear group includes, in order from the object side, at least one negative lens having a concave surface toward the image side, and at least one positive lens having a convex surface toward the object side.

An optical imaging system includes a plurality of fixed lenses disposed along an optical axis; a first reflective member disposed on an object side of the plurality of lenses; and a plurality of reflective members disposed on an image side of the plurality of lenses. At least one of the plurality of lenses is a variable lens having a variable focal length, and each of the plurality of reflective members is configured to move as the focal length of the variable lens changes.

An adjustment apparatus which is an optical system having an incident face and a light exit face that is parallel to the incident face. The optical system is disposed in an exposure device. The adjustment apparatus includes at least one wedge lens and a plurality of optical lenses configured such that at least one of focal plane adjustment, magnification adjustment and position adjustment for a field of view corresponding to the exposure device is made possible through changing relative positions of at least one pair of neighboring ones of the lenses. An adjustment method corresponding to the adjustment apparatus is also provided for the focal plane adjustment, magnification adjustment and position adjustment for the field of view corresponding to the exposure device.

A display system includes a light projection device operatively coupled to an image source that generates image data. The system also includes a composite variable focus element (VFE) assembly operatively coupled to the light projection device, the composite VFE assembly comprising a first VFE arranged in series with a second VFE to provide image frames corresponding to the image data for display. The first VFE is configured to switch between focal states within a first focal range and with a first switching response time. The second VFE is configured to switch between focal states within a second focal range and with a second switching response time. The first focal range is greater than the second focal range. The first switching response time is slower than the second switching response time.

A communication device includes a zoom lens that collects signal light.

A communication device includes a zoom lens that collects signal light.