Application sharing

Abstract: An apparatus, method, and computer program product for instant document sharing. In one embodiment, referred to as “document sharing,” a file is converted to a “shared document” which is distributed to the members of a data conference for review. In another embodiment, referred to as “application viewing,” the “owner” of a document shares the screens created by an application associated with the document. The other members of the data conference can view the screens, but cannot interact with the application. In another embodiment, referred to as “application sharing,” the “owner” of a document shares the screens created by an application associated with the document. The other members of the data conference can view the screens and interact with the application.

Abstract: A new application sharing technology that enables sharing of many single-user non-modified applications between two or more workstations. It provides concurrent sharing of existing multiple applications with no change in a distributed environment. It permits real-time sharing of distributed applications based on a fundamental window hierarchical mapping and user interactions. Control is centralized but the data and program are replicated. It is event driven with agent assistance. The new event capturing capability is automatically triggered by user interactions on entering/leaving the shared window. The event capturing capability starts when the user moves the pointer into the shared windows. The event capturing ends when the user moves the pointer out of the shared windows. The new multicasting scope is defined in a shared window hierarchy data array. This global data array is dynamically created at run time on an as-needed basis. Because this mechanism only processes user input events such as mouse, keyboard or cursor movement (commands), no output graphic data transmission across the network is required. Therefore, this approach is extremely light-weight and provides secure transmission without requiring intensive encryption. Because it is not using pseudo server interception, this approach can support DHA 3-D rendering. Also, the agent can dynamically mediate resources and normalize environment differences. This permits real-time sharing of 3-D, graphic and DHA (direct hardware access) applications. DHA permits the application to bypass the windowing server to render graphics on display. Moreover, because it is extremely light-weight, high network bandwidth is not required.

Abstract: A system and method for an interactive, Internet-based videoconferencing multicast operation which utilizes a video production studio with a live instructor giving lectures in real-time to multiple participating students. The videoconference multicasting permits the students to interact with the instructor and other installations during the course of the lecture. In the case of software training, the system and method also utilize Internet-based application sharing and collaboration to permit the students at remote locations to drive a studio-based computer with the software for which the training is being given. The software screen is then used as a background with the instructor being able to literally point to areas of the screen which are being discussed. The instructor has a set of monitors in the studio which allow him/her to see the students on-location. In this fashion, the students can see at their computer screens the instructor “walking” around their computer screen pointing at various items in the screen. Furthermore, a system and method for on-line testing, evaluation and reporting is disclosed wherein test questions, which can be created on the fly by a test administrator, are stored in a database and associated with one or more test numbers and whereby each time a student requests to take a test, the test is “built” and the order of the questions is randomized to avoid cheating. Test evaluation data is cross-correlated and made instantaneously available to students and their sponsoring employer.