Meeting system that interconnects group and personal devices across a network

We claim: 1. A system comprising: a server that includes: a network interface operable to communicate with multiple clients; and a control unit, implemented by a memory and processor, operable to share visual content between the multiple clients for presentation at displays of the multiple clients, the control unit is further operable to: detect initiation of strokes applied onto the shared visual content by multiple drawing clients at once, each stroke applied in a strokes layer positioned above the shared visual content that does not alter the shared visual content, the control unit is further operable to transmit information instructing other clients to initiate the strokes within the strokes layer at each respective drawing client, to acquire a stream of stroke coordinates supplied by each respective drawing client indicating locations of corresponding pointing input while each respective drawing client is receiving pointing input from a respective user currently drawing prior to stroke completion, the control unit is further operable to transmit the stream of stroke coordinates to the other clients in real-time while the multiple drawing clients are receiving pointing input for the strokes, responsive to receiving the stream of stroke coordinates from each respective drawing client, and prior to completion of the strokes, wherein the control unit is further operable to detect completion of a stroke at a drawing client, and to instruct the other clients to finish drawing the stroke within the strokes layer at each respective drawing client responsive to detecting the completion of the stroke, and wherein stroke information for each completed stroke is stored in memory independently from the shared visual content, and the stroke information includes the stream of coordinates indicating the locations of the corresponding pointing input during the completed stroke, as well as the client that originated the completed stroke. 2. The system of claim 1 wherein: the control unit is further operable to display multiple pointers from multiple users while pointing input is being provided for corresponding strokes. 3. The system of claim 1 wherein: the control unit is further operable to detect stroke information from the drawing client that indicates a brush shape of the stroke, to detect stroke information from the drawing client that indicates a color of the stroke, to detect stroke information from the drawing client that indicates a size of the stroke, and to transmit the detected stroke information to the other clients concurrently with transmitting information to the other clients indicating the identity of the drawing client. 4. The system of claim 1 wherein: the control unit is further operable to detect stroke information from the drawing client that indicates a color of the stroke, and to transmit the stroke information to the other clients. 5. The system of claim 1 wherein: the control unit is further operable to detect stroke information from the drawing client that indicates a size of the stroke, and to transmit the stroke information to the other clients. 6. The system of claim 1 wherein: the control unit is further operable to transmit information to the other clients instructing the other clients to initiate drawing of the stroke in real-time while the drawing client is receiving pointing input from the user currently drawing the stroke. 7. The system of claim 1 wherein: the control unit is further operable to transmit information to the other clients indicating the identity of the drawing client. 8. The system of claim 7 further comprising: the clients, each client operable to receive multiple strokes at once from the server, each client further operable to identify a drawing client for each of the multiple strokes, to initiate drawing of each of the multiple strokes in real-time by updating the strokes at a display presented to a user based upon received coordinates from the server, and to separately apply each stroke to the visual content, the strokes distinguished from each other based upon the information indicating the identity of the drawing client for each stroke. 9. The system of claim 8 wherein: the control unit is further operable to detect stroke information from the drawing client that identifies the stroke as an erasing stroke, and to transmit the stroke information to the other clients, the other clients operable to receive the coordinate of the erasing stroke, and to remove previously applied strokes based on the coordinates of the erasing stroke. 10. The system of claim 8 wherein: each of the clients is operable to store the visual content and each stroke separately, such that strokes applied to the visual content do not modify the stored version of the visual content. 11. A method comprising: sharing visual content between multiple clients for presentation at displayed of the multiple clients including multiple drawing clients; detecting initiation of strokes applied onto the shared visual content by multiple drawing clients at once, each stroke applied in a strokes layer positioned above the visual content that does not alter the shared visual content; transmitting information instructing other clients to initiate the strokes within the strokes layer at each respective drawing client; acquiring a stream of stroke coordinates supplied by each respective drawing client indicating locations of corresponding pointing input while each respective drawing client is receiving pointing input from a respective user currently drawing prior to stroke completion; transmitting the stream of stroke coordinates to the other clients in real-time while the multiple drawing clients are receiving pointing input for the strokes, responsive to receiving the stream of stroke coordinates from each respective drawing client, and prior to completion of the strokes; detecting completion of a stroke at the drawing client; and instructing the other clients to finish drawing the stroke within the strokes layer at each respective drawing client responsive to detecting the completion of the stroke, wherein stroke information for each completed stroke is stored in memory independently from the shared visual content, and the stroke information includes the stream of coordinates indicating the locations of the corresponding pointing input during the completed stroke, as well as the client that originated the completed stroke. 12. The method of claim 11 further comprising: displaying multiple pointers from multiple users while pointing input is being provided for corresponding strokes. 13. The method of claim 11 further comprising: detecting stroke information from the drawing client that indicates a brush shape of the stroke; detecting stroke information from the drawing client that indicates a color of the stroke; detecting stroke information from the drawing client that indicates a size of the stroke; and transmitting the stroke information to the other clients concurrently with transmitting information to the other clients indicating the identity of the drawing client. 14. The method of claim 11 further comprising: detecting stroke information from the drawing client that indicates a color of the stroke; and transmitting the stroke information to the other clients. 15. The method of claim 11 further comprising: detecting stroke information from the drawing client that indicates a size of the stroke; and transmitting the stroke information to the other clients. 16. The method of claim 11 further comprising: transmitting informa