Techniques are described to support shared applications, including a shared application that permits retrieval, presentation and traversal of information resources. The innovative techniques enable multiple participants at different locations to both see and interact with assets such as a web-based content. The innovative techniques centralize the functionality of an application that is to be shared. A shared application is executed, during a collaboration, at a centralized location in a manner that does not require any local resources to create an application instance.

The present disclosure provides a switch, which includes a first input port, a second input port, an output port and a control circuit. The output port outputs image data received by the first input port. The control circuit receives a first electrical characteristic and a second electrical characteristic from the first input port and the second input port respectively, and changes a third electrical characteristic of the output port when the second electrical characteristic is different from the first electrical characteristic, and then the output port outputs image data received by the second input port.

A hub system control method, for controlling a hub which has a maximum bandwidth and is connected to a plurality of monitors, comprising: acquiring resolutions and refresh rates of each one of the monitors by the hub; computing used bandwidths of each one of the monitors according to the resolutions and the refresh rates; and controlling the hub to operate corresponding to at least one relation between the used bandwidths and the maximum bandwidth.

A display system that smoothly switches input from one input device to input from another input device when a plurality of display devices include respective input devices. The display system includes a first display device and a second display device. The first display device includes a first display unit, a first controller, and a first input device. The second display device includes a second display unit, a second controller, and a second input device. The first display unit displays a first image outputted from at least one first computer. The second display unit displays a second image outputted from at least one second computer. The first controller receives input of first information outputted from the first input device for operating the first and second computers. The second controller receives input of second information outputted from the second input device for operating the second computer.

Technologies for remote keyboard-video-mouse sessions can include failover mechanisms. In some embodiments, a system can establish a first remote keyboard-video-mouse session between a console application on the system and a first server application executed by a controller on a server. The first remote keyboard-video-mouse session can be established via a first network connection between the system and the controller. Next, the system can detect an error associated with the first remote keyboard-video-mouse session. In response to the error, the system can establish a second remote keyboard-video-mouse session between the console application and a second server application executed by an operating or a basic input/output program on the server. The second remote keyboard-video-mouse session can be established via a second network connection between the system and the second server application.

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 secure mediator for coupling between one or more hosts and one or more consoles comprising one or more peripheral devices. the secure mediator comprises host side ports, each host side port is configured to be connected to a corresponding host, and console side ports, each console side port is configured to be connected to a corresponding peripheral device. The secure mediator comprises: a triggering circuitry; a timing/control circuitry; a setup circuitry; a switching circuitry; and the rest of the mediator circuitries, wherein the triggering circuitry, timing/control circuitry, setup circuitry, and switching circuitry are non-programable circuitries. The mediator has at least two stages: a security setup stage and a normal operation stage. The triggering circuitry is configured to monitor events and to signal these events to the timing/control circuitry in order to trigger a transfer between the security setup stage and the normal operation stage. The timing/control circuitry controls the execution of the security setup stage and transfers the mediator between the security setup stage and the normal operation stage. The setup circuitry performs one or more security functions in the security setup stage to enhance the cyber security of mediator. The switching circuitry, conditioned upon control from the timing/control circuitry, switches between the coupling of: (1) at least one of the host side ports with at least two of any one of (a) the setup circuitry; (b) the rest of the mediator circuitries; (c) one of the console side ports; (d) a null port, and (2) at least one of the console side ports with at least two of any one of (a) the setup circuitry; (b) the rest of the mediator circuitries; (c) one of the host side ports; (d) a null port.

A computing device receives a modified first image frame from a client device, wherein the client device stores the first image frame. The computing device generates a second image frame that corresponds to the modified first image frame with a watermark. The computing device transmits, to a third-party application executing at the computing device, the second image frame and generates an instruction for modifying the first image frame, the instruction based on an altered version of the second image frame that is identified by the watermark, the second image frame altered by the third-party application. The computing device transmits, to the client device, the instruction for modifying the first image frame.

A color control user interface can include a controller, a display area, and a three-dimensional shape generated by the controller and disposed in the display area. The three-dimensional shape can include a first axis that represents a first range of selections for a first color factor, a second axis that represents a second range of selections for a second color factor, and a third axis that represents a third range of selections for a third color factor. A control engine of the controller can be configured to receive user selections having a first selection of the first color factor, a second selection of the second color factor, and a third selection of the third color factor. The control engine can also be configured to compare the user selections to light source information stored in memory, and send commands via a transceiver to at least one light source.

An object of the present invention to provide a remote operating system and an information processing method which reduce a burden on a user's operation and suppress a user's erroneous operation. A remote operating system according to the present invention is a remote operating system which includes an operation target device and a remote operating device connected via a network, and in which a first controller causes a display signal interface to output a display signal for displaying a remote operating window corresponding to a selected window, and, when a cursor position is out of a movable area of a cursor, the second controller changes a position of the selected window and the cursor position such that the cursor position comes in the movable area of the cursor while maintaining a relative positional relationship between the position of the selected window and the cursor position.