A communication terminal device acquires audio including voice of own user using own device; acquires visual information for enabling formation of three-dimensional data of object in predetermined user space; identifies viewpoint position of own user on basis of visual information on user space; transmits, to another device, image transmission information based on visual information on user space and audio transmission information based on audio; displays, on basis of image transmission information transmitted from other device, on display surface having fixed relative position relative to shared virtual space, in which first virtual space in which user space is fixedly arranged and second virtual space in which user space of other device is fixedly arranged are arranged at predetermined relative positions and relative angles, image of shared virtual space which can be viewed from viewpoint position of own user; and outputs audio on basis of audio transmission information transmitted from other device.

An augmented reality display system is configured to direct a plurality of parallactically-disparate intra-pupil images into a viewer's eye. The parallactically-disparate intra-pupil images provide different parallax views of a virtual object, and impinge on the pupil from different angles. In the aggregate, the wavefronts of light forming the images approximate a continuous divergent wavefront and provide selectable accommodation cues for the user, depending on the amount of parallax disparity between the intra-pupil images. The amount of parallax disparity is selected using a light source that outputs light for different images from different locations, with spatial differences in the locations of the light output providing differences in the paths that the light takes to the eye, which in turn provide different amounts of parallax disparity. Advantageously, the wavefront divergence, and the accommodation cue provided to the eye of the user, may be varied by appropriate selection of parallax disparity, which may be set by selecting the amount of spatial separation between the locations of light output.

A method represents an environment via a display unit arranged on a person and visible for the person as a display image within the scope of a simulation. The simulation is carried out in an interaction environment, wherein a number of actuatable interaction elements are arranged in the interaction environment. An interaction environment image capture, depicting the interaction environment, is created by use of a first image capturing unit arranged on the person or relative to the person. A position of the person is determined in the interaction environment and based on the position of the person an environment image is provided. An image mask is provided which depicts the individual interaction elements contained in the interaction environment image capture and is represented in the display image. The interaction environment image capture and the environment image are superimposed using the image mask and then displayed on the display unit.

An eyeglass of a 3D glasses, a fabrication method thereof and a 3D glasses are provided. The eyeglass of the 3D glasses comprises: a substrate (2), configured to have a 3D function; and a lens (1) having a converging or diverging function, laminated on the substrate. The eyeglass of the 3D glasses and the 3D glasses have a myopic or hyperopic function simultaneously.

Technologies provide a heat pipe having a controlled torque resistance. The techniques disclosed herein provide a heat pipe that can function as a coupling device and as a thermal interface between two moving components of a device without the need of a mechanical hinge. In some configurations, a heat pipe comprises a housing having an outer surface and having an inner surface defining a cavity. The heat pipe can also comprise one or more components for transferring heat from a first region to a second region. In addition, the heat pipe is configured to provide a predetermined torque resistance about a first axis that is perpendicular to a longitudinal axis of the heat pipe. Components, such as a heat source and a heat sink, that are attached to the heat pipe can be hingeably coupled with a predetermined torque resistance without requiring a hinge and a separate thermal interface device.

A system for display three dimensional content on a display.

The invention provides an eyewear device for transmitting a signal and a communication method thereof. The eyewear device comprises a receiving unit, a shutter and a transmitting unit. For example, the receiving unit is capable of receiving a synchronization signal, and the shutter performs an operation in response to the synchronization signal. Meanwhile, the transmitting unit transmits the synchronization signal to another eyewear device. By this way, each eyewear device is capable of receiving the synchronization signal, and re-transmits the synchronization signal to another eyewear device.

A ride system includes eyewear configured to be worn by a user. The eyewear includes a display having a stereoscopic feature configured to permit viewing of externally projected stereoscopically displayed images. The ride system includes a computer graphics generation system communicatively coupled to the eyewear, and configured to generate streaming media of a real world environment based on image data captured via the camera of the eyewear, generate one or more virtual augmentations superimposed on the streaming media of the real world environment, and to transmit the streaming media of the real world environment along with the one or more superimposed virtual augmentations to be displayed on the display of the eyewear, and project stereoscopic images into the real world environment.

A digital loupe system is provided which can include a number of features. In one embodiment, the digital loupe system can include a stereo camera pair and a distance sensor. The system can further include a processor configured to perform a transformation to image signals from the stereo camera pair based on a distance measurement from the distance sensor and from camera calibration information. In some examples, the system can use the depth information and the calibration information to correct for parallax between the cameras to provide a multi-channel image. Ergonomic head mounting systems are also provided. In some implementations, the head mounting systems can be configurable to support the weight of a digital loupe system, including placing one or two oculars in a line of sight with an eye of a user, while improving overall ergonomics, including peripheral vision, comfort, stability, and adjustability. Methods of use are also provided.

An object of the present invention is to provide an I/O device, an I/O program, and an I/O method which can be used even by a user who has strabismus, etc. Another object of the present invention is to provide an I/O device, an I/O program, and an I/O method for adjusting the strabismus or eyesight, etc. of a user. In addition, a display device can generate a stereoscopic image, a depth level sensor measures a distance to an object, and a control unit performs display on the display device in accordance with the depth level sensor. A display adjustment mechanism adjusts the angle of the display device.