Device-to-device

D2D communication in cellular networks is defined as direct communication between two mobile users without traversing the Base Station (BS) or core network. D2D communication is generally non-transparent to the cellular network and it can occur on the cellular spectrum (i.e., inband) or unlicensed spectrum (i.e., outband).

In a traditional cellular network, all communications must go through the BS even if both communicating parties are in range for D2D communication. This architecture suits the conventional low data rate mobile services such as voice call and text message in which users are not usually close enough for direct communication. However, mobile users in today's cellular networks use high data rate services (e.g., video sharing, gaming, proximity-aware social networking) in which they could potentially be in range for direct communications (i.e., D2D). Hence, D2D communications in such scenarios can highly increase the spectral efficiency of the network. Nevertheless, the advantages of D2D communications are not only limited to enhanced spectral efficiency. In addition to improving spectral efficiency, D2D communications can potentially improve throughput, energy efficiency, delay, and fairness. [1][2]

See also

References

  1. Asadi, Arash; Wang, Qing; Mancuso, Vincenzo (24 April 2014). "A Survey on Device-to-Device Communication in Cellular Networks". Communications Surveys & Tutorials, IEEE. 16 (4): 1801-1819.
  2. Zhang, Yanru; Pan, Erte; Song, Lingyang; Saad, Walid; Dawy, Zaher; Han, Zhu (2015). "Social Network Aware Device-to-Device Communication in Wireless Networks" (PDF). IEEE Transactions on Wireless Communications. 14 (1).


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