An improved networked computer communications system handles arbitrary
streams of data, and transports at varying speeds those streams where
intermediate updates can be dropped if they are made obsolete by later
arriving data updates, optimizing the utilization of network and node
resources. Complex buffering by system server software allows
distributed, parallel, or redundant processing, transmission, and storage
for performance, reliability, and robustness. Various parameters of the
system can be monitored, and the system can be reconfigured automatically
based on the observations. Varied techniques reduce the perceived
end-to-end latency and take advantage of software and hardware
capabilities that assets connected to the system may possess. One
conferencing system allows conference participants to share all or a
portion of the display seen on their computer screens. The conferees may
be at sites removed from each other, or may view a recorded presentation
or archived conference at different times. Conference participants are
either "presenters" who can modify the display or "attendees" who cannot
modify the display. A pointer icon, which can be labeled to identify the
conferee, is displayed on the shared image area. Each conferee can modify
the position of his or her own pointer, even when not presenting, so that
every participant can see what each conferee is pointing to, should a
conferee choose to point to an element of the display. These and other
features apply to other data streams shared in the conference or in
meetings where there is no shared-image data stream.