Sentence examples for becomes relayed from inspiring English sources

An opportunistic relay is a two-hop topology consisting of a base station (BS), a mobile station relay (RS) that performs the relay, and a mobile station that becomes relayed (MS).

Besides, since mobile users are moving in the cell, they are relays at some location, but will become relayed sources whenever they move towards the cell edge.

Users with average or lower direct link spectrum efficiency benefit more from relaying while mobile subscribers with a higher SE can become relays for other MS. In the presence of lognormal fading relaying becomes efficient at closer distance from BS (around 650 m in this figure).

Some of UEs receiving the IREQ packet become relay nodes and rebroadcast the IREQ packet.

If the IS has multiple NSs within its VHF transmission coverage area, these NSs become relay nodes and forward the IS's data to their NSs in an ad-hoc manner.

The local power consumption increase when a mobile user acts as a relay is compensated for by an important power consumption decrease when the same mobile user becomes a relayed source.

When an ABM is transmitted, the most distant node on each road branch within the transmission range becomes the relaying node and is responsible for forwarding the ABM again.

Given that there are n nodes in the network, the probability that one node becomes a relay node for a source-destination pair is (E[H]−1)/(n−1) and the expected amount of relay traffic from a source node is Λ E[H]−1)/(n−1).

The ballet becomes a relay, with one dancer exiting as his or her partner is successively partnered by the next dancer.

The first rebroadcasting node in the area becomes a relay node.

Meanwhile, any relay r i that receives the packet becomes a decoding relay with the probability Pr { r i ∈ D } = exp − 2 R − 1 SNR σ s, r i 2. Assuming that channel gains | h s, r i | 2 ( r i ∈ K ) are independently exponentially distributed, we have Pr { D } = ∏ r i ∈ D exp − g 1 σ s, r i 2 ∏ r i ∉ D 1 − exp − g 1 σ s, r i 2, where g 1 = 2 R − 1 SNR.