Sentence examples for multiple destination nodes from inspiring English sources

The multicast pattern, in which one source node sends the same message to multiple destination nodes, is the essential pattern in a wide variety of applications.

The basic scenario is that a cluster of source nodes cooperatively forms multiple data-carrying beams toward multiple destination nodes.

Regarding the scenario with a source node, multiple relays and multiple destination nodes, the scheduling problems become much more complicated to handle.

We then develop linear programming models to calculate the end-to-end throughput bounds from multiple source nodes to single as well as multiple destination nodes.

The multicasting case is considered here; that is, there is one source node and multiple destination nodes with the same bandwidth demands.

In this work, we study QoS-aware scheduling for cooperative OFDMA systems with a source node, multiple relays and multiple destination nodes.

Now, suppose there are multiple, geographically dispersed destination nodes.

In this paper, we investigate the transceiver design for AF interference MIMO relay communication systems where multiple source nodes transmit information simultaneously to the destination nodes with the aid of multiple relay nodes, and each node is equipped with multiple antennas.

M destination nodes with multiple antennas are distributed around the source node, among which M1 nodes switch to relay mode in RB phase.

A multiple-input multiple-output (MIMO) relay network comprises source, relay, and destination nodes, each of which is equipped with multiple antennas.

Compared with the single channel based protocols [20, 21, 23, 25, 26, 35, 40, 53, 54], in which each source-destination pair can only use one channel for their data transmissions, the multi-channel based protocols allow the source and destination nodes to utilize multiple channels simultaneously.