The splitting of one (broadband) data stream into a number of independent data streams with lower bit rates and the subsequent combination of these separate circuits into one data stream.
A process used to derive a single higher bandwidth channel from two or more B-channels.
Several combined, lower-speed circuits that make up one circuit for greater bandwidth. Inverse multiplexing also pulls together and synchronizes multiple channels at the receiving end of data, voice, or video transmission.
The ability to aggregate multiple 56/64 channels into a single higher speed. For example, in an application involving an audio codec operating at 256 kbps, the inverse multiplexer would split up the 256 kbps data stream and make four separate 64 kbps calls. At the receive end, the inverse multiplexer would perform the complementary function of multiplexing the four calls back into a single 256 kbps data stream. Another function of an inverse multiplexer is to compensate for any interchannel delay that may occur as the separate calls travel different routes through the ISDN network.
method of combining independent transmission channels to form an overall continuous channel for transmission. It is sometimes referred to as aggregation.
A method in which the inverse multiplexer slices the data stream into equal portions and transmits each portion over an available circuit. The receiving end adjusts for network-induced delay and reassembles the data packets into their proper order. Therefore, an inverse multiplexer allows lower speed channels across a network to be combined into a single, higher speed data stream.
Allows individually-dialed channels across the network to be combined into a single, higher-speed data streams. Using this service, a user can dial multiple calls and combine them together into a single high-speed data stream.
The creation of a single higher speed data channel by combining and synchronizing two or more lower speed data channels. IMUX - Equipment RPM.
Taking a single high-bandwidth stream and dividing it into multiple channels for transmission over a wide area in separate 56 or 64 Kbps switched digital circuits.
Process whereby physical links are grouped to form a higher-bandwidth logical link whose rate is approximately the sum of the individual link rates.