A transmission terminal transmits video data and display data of a screen shared with another transmission terminal to the other transmission terminal via a predetermined relay apparatus. The transmission terminal includes a storage unit that stores relay apparatus information of the relay apparatus to which the transmission terminal transmits the video data; a receive unit that receives the display data from an external input apparatus connected to the transmission terminal; and a transmitting unit that transmits the display data received by the receive unit to the relay apparatus indicated by the relay apparatus information stored in the storage unit.

Apparatus with I/O modules such as a networked security camera with a plurality of wireless connections to continue to use at least one network connection is presented. The apparatus, comprising a plurality of RF units, a plurality of SIM card interfaces, at least one processing unit, at least one non-transitory computer readable storage medium and at least on input/output module, is able to continue sending and receiving data through one or more wireless networks using a plurality of RF units. Further, when more bandwidth and/or higher reliability is required, the apparatus aggregates data connections established with different wireless networks.

A split-type display system includes a processing device, a display device, and a transmission cable connecting the devices. The processing device includes a processing unit and a low-to-high unit. The processing unit generates a first image signal having both a first transmission rate and a first channel number. The low-to-high unit converts the first image signal into a second image signal having both a second transmission rate and a second channel number. The first transmission rate is lower than the second transmission rate. The display device includes a high-to-low unit and a display unit. The high-to-low unit receives and converts the second image signal into a third image signal having both a third transmission rate and a third channel number. The display unit displays the third image signal. a number of channels of the transmission cable is the same as the second channel number.

Various embodiments of the present application set forth a computer-implemented method that includes detecting a tag that is associated with a real-world object, determining an object identifier (ID) associated with the tag, transmitting a request for data associated with the real-world object, wherein the request includes the object ID, receiving a set of values associated with the object ID from a data source, where the set of values is provided by the data source based on the object ID and on a query executed on raw machine data associated with the real-world object, and displaying, by a client device within the XR environment, a visualization associated with the set of values.

Various example embodiments described herein relate to a method for synchronizing liquid crystal display (LCD) screens. In some examples, the method includes establishing, by a first device comprising a processor, a master/slave relationship with one or more other devices; determining, by the first device, a frequency associated with turning on a first LCD screen on the first device; and sending, by the first device, a signal to each of the one or more other devices, wherein the signal comprises an instruction to turn on an LCD screen on each receiving device at a same time as the first LCD screen.

Various example embodiments described herein relate to a method for synchronizing liquid crystal display (LCD) screens. In some examples, the method includes establishing, by a first device comprising a processor, a master/slave relationship with one or more other devices; determining, by the first device, a frequency associated with turning on a first LCD screen on the first device; and sending, by the first device, a signal to each of the one or more other devices, wherein the signal comprises an instruction to turn on an LCD screen on each receiving device at a same time as the first LCD screen.

In response to a vehicle being switched from an IGN OFF state (non-operating state) to an IGN ON state (operating state) in a state in which a mobile terminal has been activated, the use of wireless communication (Wi-Fi communication) by the mobile terminal via a network using an in-vehicle device as a base station can be started. In response to the vehicle being switched from the IGN ON state (operating state) to the IGN OFF state (non-operating state) in the state in which the mobile terminal has been activated, the use of wireless communication (Wi-Fi communication) by the mobile terminal via the network using the in-vehicle device as the base station is stopped.

In certain embodiments, a method includes receiving an input signal from an input device (e.g., cursor movement) communicatively paired with the first host computer, where the first host computer is communicatively coupled to a second host computer, determining that data is saved to a virtual clipboard, detecting when the cursor moves to an edge of the display of the first host computer and when the input signal corresponds to continued movement of the cursor beyond the edge of the display of the first host computer, sending a control signal indicating that data is saved to a virtual clipboard, receiving a request for the data saved to the virtual clipboard, and sending, by the first host computer to the second host computer, the data saved to the virtual clipboard.

Systems and methods for receiving an input signal from an input device that corresponds to a movement of a cursor on a display of the first host computer, detecting when the cursor moves to an edge of the display of the first host computer and when the input signal corresponds to a continued movement of the cursor beyond the edge of the display of the first host computer, sending a first control signal to switch the communicative pairing of the input device from the first host computer to the second host computer, and sending a second control signal causing a processor in the second host computer to move a second cursor on the second host computer to a location to simulate a continuous movement of the cursor from the edge of the display of the first host computer to a corresponding edge of a display of the second host computer.

A display device (1) includes a screen (3), at least one sensor, and a processing unit (6) configured to manage content displayed on the screen (3) based on information received from the at least one sensor. The device (1) is configured to detect the presence of one or more user in the vicinity of the device (1) and display content, such as advertisements, on the screen based on information received from the sensors. A plurality of display devices may be interconnected to form a composite display system. The device/system may further use sensors to determine information/advertising content relevant to the demographic of the user(s).