Provided are an acousto-optic element, an acousto-optic element array, and a display apparatus including the acousto-optic element array. The acousto-optic element includes: an acousto-optic modulator which includes an acousto-optic layer formed of an acousto-optic material; a light supplier which supplies light to the acousto-optic modulator in a first direction; a first sound-wave modulator which applies first elastic waves to the acousto-optic modulator in a second direction; and a second sound-wave modulator which applies second elastic waves to the acousto-optic modulator in a third direction. The light supplied from the light supplier to the acousto-optic modulator is deflected by diffraction caused by the first elastic waves applied from the first sound-wave modulator and diffraction caused by the second elastic waves applied from the second sound-wave modulator, and is output from the acousto-optic modulator through a front side of the acousto-optic modulator.

Provided are a light deflector and a light output device including the light deflector, the light deflector including a first electrode layer and a second electrode layer that are spaced apart from each other and facing each other, and a deflection layer configured to deflect incident light thereon based on a voltage applied to the first electrode layer and the second electrode layer, wherein the first electrode layer includes a plurality of electrode elements that are spaced apart from each other, and a resistor that is in contact with at least part of the plurality of electrode elements and in which a voltage drop is generated.

An exemplary information processing apparatus selectively switches between: first control where control is performed such that, in a virtual space, a position of producing no parallax on a screen of a stereoscopic display is a first position near a predetermined object; and second control where control is performed such that the position of producing no parallax is closer to a viewpoint position of virtual cameras than the first position is.

Provided is a display device. The display device includes a display panel and a microlens array disposed on a light-emitting side of the display panel, wherein the display panel includes a plurality of pixel islands in which a first pixel island displaying a first color, a second pixel island displaying a second color, and a third pixel island displaying a third color adjacent to one another form a repeating unit. In a same repeating unit, three sub-pixels at the same positions relative to their respective microlens units in the first pixel island, the second pixel island, and the third pixel island are disposed at three vertexes of a triangle respectively, and thus form a color fusion pixel. In addition, the display device further includes microlens arrays in one-to-one correspondence with the plurality of pixel islands to realize 3D display.

According to an implementation of the present specification there is provided an apparatus for creating a hybrid image. The apparatus comprises: a first light source configured to emit a first light in a first direction; a reflector disposed to intercept the first light and configured to at least partially reflect the first light in an output direction to produce a reflected first light. The apparatus also comprises a second light source configured to emit a second light, the reflector configured to at least partially transmit the second light in the output direction to produce a transmitted second light. The apparatus also comprises an input terminal configured to receive an input used to control one or more of the first light source and the second light source. The hybrid image comprises a combination of the reflected first light and the transmitted second light.

A stereoscopic imaging platform includes a stereoscopic camera configured to record left and right images of a target site. A robotic arm is operatively connected to the stereoscopic camera, the robotic arm being adapted to selectively move the stereoscopic camera relative to the target. The stereoscopic camera includes a lens assembly having at least one lens and defining a working distance. The lens assembly has at least one focus motor adapted to move the at least one lens to selectively vary the working distance. A controller is adapted to selectively execute one or more automatic focusing modes for the stereoscopic camera. The controller has a processor and tangible, non-transitory memory on which instructions are recorded. The automatic focusing modes include a disparity mode and/or a sharpness control mode which are adapted to at least partially rely on disparity feedback to change the working distance in order to achieve focus.

A system, method and computer program product provide for intervening in a financial transaction to discourage a bad decision by a customer. An execution decision by a customer is analyzed. A cautionary rule that is violated by the execution decision is identified. A suggestion in a personally persuasive persona presented on at least one user interface device to the customer.

A system, method and computer program product provide for intervening in a financial transaction to discourage a bad decision by a customer. An execution decision by a customer is analyzed. A cautionary rule that is violated by the execution decision is identified. A suggestion in a personally persuasive persona presented on at least one user interface device to the customer.

Disclosed are systems and methods for manufacturing energy relays for energy directing systems. Methods and devices are disclosed for forming random and non-random patterns of energy relay materials with energy localization properties. Methods and devices are disclosed for forming energy relays of different shapes.

Disclosed are systems and methods for manufacturing energy relays for energy directing systems. Methods and devices are disclosed for forming random and non-random patterns of energy relay materials with energy localization properties. Methods and devices are disclosed for forming energy relays of different shapes.