A head mounted system can include a video camera that is configured to provide image data. A wireless interface circuit can be configured to receive augmentation data from a remote server. A processor circuit can be coupled to the video camera, where the processor circuit can be configured to register the image data with the augmentation data and combine the image data with the augmentation data to provide augmented image data. A projector circuit, coupled to the processor circuit, the projector circuit can be configured to project the augmented image data from the head mounted system onto a surface.

In accordance with disclosed embodiments, there is described a depth camera calibration system which includes: a depth camera to be calibrated; a calibration application to execute upon a mobile device, the calibration application to: (i) determine a precise image size of a calibration image to be displayed to a screen of the mobile device based on a screen size of the mobile device, the calibration image having embedded therein a plurality of objects of a known size, (ii) encode the known size of the objects into an optical machine-readable data representation, and (iii) display the encoded optical machine-readable data representation to the mobile device; in which the depth camera is to read the optical machine-readable data representation displayed by the mobile device to determine the known size of the objects of the calibration image; in which the calibration application is to display the calibration image to the mobile device; and in which an imager of the depth camera is to capture the objects of the coded image pattern and calibrate based on the known size of the objects of the captured calibration image. Other related embodiments are disclosed.

A system includes an electronic device and VR glasses. The electronic device receives a notification message in a VR mode. The notification message is designated to be displayed by a first user interface in a normal mode. The electronic device is configured to generate a second interface based on the first interface and display the second interface for displaying the notification message in the VR mode. The electronic device is configured to receive a first user input corresponding to a first location on the second interface. The electronic device is configured to determine a second location on the first interface corresponding to the first location on the second interface to respond to the first user input for interacting with the notification.

A mobile terminal device including: an ultraviolet LED unit for irradiating an object with ultraviolet rays of a wavelength between 200 nm or more and less than 400 nm; an image sensor unit for capturing, as a ultraviolet irradiation region, the ultraviolet rays irradiated from the ultraviolet LED unit, an image sensor part for converting into image data the ultraviolet irradiation region captured by the image sensor unit; and a display and touch panel unit for displaying, as image information, the ultraviolet irradiation region converted into image data by the image sensor part.

An iPhone LED projector device that projects a large image from an iPhone onto a nearby wall or screen, where the LED projector is built into a housing for the iPhone, where the iPhone is attached via a lightning connector, where the LED projector device is about the same size as an iPhone and encloses the iPhone in a case, where the LED projector has a removable rechargeable lithium ion battery, an A/C power unit, wherein the LED projector includes external controls on one or more outer surfaces of the housing, wherein the LED projector is able to project an image approximately 100 in size diagonal dimension, and wherein the LED projector includes an audio Bluetooth connection for connecting to an external audio unit.

An iPhone LED projector device that projects a large image from an iPhone onto a nearby wall or screen, where the LED projector is built into a housing for the iPhone, where the iPhone is attached via a lightning connector, where the LED projector device is about the same size as an iPhone and encloses the iPhone in a case, where the LED projector has a removable rechargeable lithium ion battery, an A/C power unit, wherein the LED projector includes external controls on one or more outer surfaces of the housing, wherein the LED projector is able to project an image approximately 100 in size diagonal dimension, and wherein the LED projector includes an audio Bluetooth connection for connecting to an external audio unit.

A device search apparatus includes: a communication device which wirelessly communicates with a device; an input device to which information is inputted; a display device which displays information; and a processing device which, if input information including a predetermined keyword is received via the input device, searches for a device, using the communication device, extracts a device associated with a device name included in the input information from among the devices detected by the search, and displays a device indication representing each of the extracted devices on the display device.

A multi-modal projection system, such as a smartphone, a wearable, or a generic universal-serial-bus-class (generic USB-class), for use in projecting device output via a host apparatus, such as a transportation vehicle. The system includes a hardware-based processing unit (processor), and a base data-processing resource needed by each of a plurality of interface components to generate the output to be projected via the host apparatus. The system includes a non-transitory computer-readable storage component having the interface components that, when executed by the processing unit, generate the output to be projected via the host apparatus. The storage component further includes a plurality of virtual data-processing components being virtual representations of the base data-processing resource. The storage component further includes a mapping module that, when executed, controls access for the interface components to the base data-processing component by way of the virtual data-processing components. Non-transitory computer-readable storage devices, methods performed by the structure described.

The present disclosure provides a smart LED lighting device, including an LED light-emitting unit, an LED power supply unit, a wireless unit configured to send and receive video data, a video processing and controller unit configured to transmit analyzed and processed video data to a projection unit, a projection unit configured to receive and transmit the video data to a lens unit, and a lens unit configured to project produced video data onto a screen. The present disclosure also provides a smart LED lighting system using the smart LED lighting device. The present disclosure provides lighting as well as projection functions, allowing full integration of lighting control and video projection. A wireless communication unit is used to facilitate networking so that online videos can be projected remotely. The disclosed lighting device can also act as a router to provide internet access to connected devices, enhancing user experience.

An operation control method for a vehicle infotainment system for enabling phone projection to be automatically executed during a connection between a head unit of a vehicle and a smart device, and the method comprises: a phone projection setting step of allowing any one of a plurality of phone projections mounted on a head unit of a vehicle to be set; a step of connecting a first smart device to the head unit of a vehicle; a step of determining whether the first smart device connected to the head unit of a vehicle supports the phone projection set in the phone projection setting step; and a step of executing the set phone projection if the first smart device supports the set phone projection, according to the determination result.