A head-mounted display apparatus configured to be worn by a viewer. The apparatus includes a pair of display modules moveably coupled to a curved rail, the display modules configured to project stereoscopic images toward the viewer, wherein a first one of the display modules projects a first stereoscopic image and a second one of the display modules projects a second stereoscopic image, the first and second stereoscopic images creating a single unified virtual stereo image that converges at a predetermined convergence distance in front of the viewer. The apparatus further includes an adjustment mechanism configured to move each of the display modules along the curved rail symmetrically about a midpoint of the rail, thereby varying a distance between the display modules while maintaining the predetermined convergence distance.

The present invention includes systems and methods for a multi-primary color system for display. A multi-primary color system increases the number of primary colors available in a color system and color system equipment. Increasing the number of primary colors reduces metameric errors from viewer to viewer. One embodiment of the multi-primary color system includes Red, Green, Blue, Cyan, Yellow, and Magenta primaries. The systems of the present invention maintain compatibility with existing color systems and equipment and provide systems for backwards compatibility with older color systems.

Systems and methods for a multi-primary color system for display. A multi-primary color system increases the number of primary colors available in a color system and color system equipment. Increasing the number of primary colors reduces metameric errors from viewer to viewer. One embodiment of the multi-primary color system includes Red, Green, Blue, Cyan, Yellow, and Magenta primaries. The systems of the present invention maintain compatibility with existing color systems and equipment and provide systems for backwards compatibility with older color systems.

An electro-optical device includes a substrate having a rectangular shape in plan view, a display unit provided with an OLED at the substrate, inspection terminals provided between the display unit and an upper side on an opposite side from a lower side in plan view at the substrate, and a light shielding member provided so as to cover the inspection terminals in plan view.

When a predetermined image is displayed for a user such that the user is able to visually recognize the image, the user sight line direction is detected, a part assumed to be present in the detected user sight line direction is set to a first image, an image complementary to the first image for the predetermined image is set to a second image, the positions of the retinas of the eyes of the user are scanned with laser light from a retinal scanning display unit fitted to the head of the user and the first image is focused on a position away from the position of the eyes of the user by a first distance and is displayed. The second image is displayed on the surface of the panel of a panel display unit in a position away from the user by a second distance shorter than the first.

When a predetermined image is displayed for a user such that the user is able to visually recognize the image, the user sight line direction is detected, a part assumed to be present in the detected user sight line direction is set to a first image, an image complementary to the first image for the predetermined image is set to a second image, the positions of the retinas of the eyes of the user are scanned with laser light from a retinal scanning display unit fitted to the head of the user and the first image is focused on a position away from the position of the eyes of the user by a first distance and is displayed. The second image is displayed on the surface of the panel of a panel display unit in a position away from the user by a second distance shorter than the first.

Methods and systems for administering modular eye tests to a patient via a head mounted display (HMD) device. In some embodiments, the HMD device receives selection of a test module associated with a specific eye test which has been downloaded from an application store, provides instructions to a patient concerning the specific eye test, receives patient input data responsive to the specific eye test instructions, and stores the patient input data in a patient database. In some embodiments, the process also includes the HMD device determining that the test module was selected by the patient, determining that the specific eye test results significantly deviate from a baseline model of the patient and then transmitting the specific eye test results to an eye doctor associated with the patient.

Methods and systems for administering modular eye tests to a patient via a head mounted display (HMD) device. In some embodiments, the HMD device receives selection of a test module associated with a specific eye test which has been downloaded from an application store, provides instructions to a patient concerning the specific eye test, receives patient input data responsive to the specific eye test instructions, and stores the patient input data in a patient database. In some embodiments, the process also includes the HMD device determining that the test module was selected by the patient, determining that the specific eye test results significantly deviate from a baseline model of the patient and then transmitting the specific eye test results to an eye doctor associated with the patient.

A head-mounted device includes a first device portion and a second device portion. A first coupler portion of the first device portion is connectable to a second coupler portion of the second device portion to define a connected position in which the first device portion is connected to the second device portion and a disconnected position in which the first device portion is disconnected from the second device portion. A second adjuster portion of the second device portion causes a first adjuster portion of the first device portion to move a first optical module and a second optical module in response to movement of the first device portion and the second device portion from the disconnected position to the connected position.

A head-mounted device includes a first device portion and a second device portion. A first coupler portion of the first device portion is connectable to a second coupler portion of the second device portion to define a connected position in which the first device portion is connected to the second device portion and a disconnected position in which the first device portion is disconnected from the second device portion. A second adjuster portion of the second device portion causes a first adjuster portion of the first device portion to move a first optical module and a second optical module in response to movement of the first device portion and the second device portion from the disconnected position to the connected position.