Decode and merge cooperative MAC protocol for intra WBAN communication

Abstract: Wireless Body Area Network (WBAN) consists of a set of sensor nodes deployed on or implanted in the body and these nodes send sensed physiological data to the personal assistant. Some of these sensor nodes can be located far from the personal assistant or due to body posture the link between the node and the personal assistant is obstructed and so require an intermediate node to help relay their data. As defined in the IEEE 802.15.6 standard, a node can initiate the two-hop extension cooperative communication … Show more

“…In [22], Deepak and Babu investigated the energy efficiency of an incremental relay-based cooperative communication in WBAN, they considered two communication model, the in-body communication between implant sensors and the gateway, and on-body communication between a body surface node and the gateway with line-of-sight (LOS) and non-LOS channels. In [23], Manirabona et al proposed a Decode and Merge method which maintains the relaying mode by merging frames from relayed and relaying nodes. The throughput has been studied with keeping the energy consumption unchanged.…”

Enhancement of the Duty Cycle Cooperative Medium Access Control for Wireless Body Area Networks

“…In [22], Deepak and Babu investigated the energy efficiency of an incremental relay-based cooperative communication in WBAN, they considered two communication model, the in-body communication between implant sensors and the gateway, and on-body communication between a body surface node and the gateway with line-of-sight (LOS) and non-LOS channels. In [23], Manirabona et al proposed a Decode and Merge method which maintains the relaying mode by merging frames from relayed and relaying nodes. The throughput has been studied with keeping the energy consumption unchanged.…”

Enhancement of the Duty Cycle Cooperative Medium Access Control for Wireless Body Area Networks

Interference Mitigation Techniques in Wireless Body Area Networks

Transmission Mode Selection for Reliable Critical Data Transmission