Wireless body area networks (WBANs) provide medical and/or consumer electronics (CE) services within the vicinity of a human body. In a WBAN environment, immediate and reliable data transmissions during an emergency situation should be supported for medical services. In this letter, we propose a flexible emergency handling scheme for WBAN MAC protocols. The proposed scheme can be applied to superframe-structured MAC protocols such as IEEE 802.15.4 and its extended versions. In addition, our scheme can be incorporated into the current working draft for IEEE 802.15.6 standards. Extensive simulations were performed and the low latency of emergent traffics was validated.

In the contention access period (CAP) of IEEE 802.15.4 beacon-enabled mode, collision probability increases, and network performance decreases as the number of contending devices increases. In this paper, we propose an enhanced contention access mechanism (ECAM) to reduce the collision probability in low rate -- wireless personal area networks (LR-WPANs). In ECAM, since the duration of each CAP is divided into multiple sub-CAPs, the number of devices contending for frame transmissions in each sub-CAP can be reduced by approximately one over the number of sub-CAPs. Further, this lowers the probability of collision due to two or more simultaneous frame transmissions. In addition, since ECAM shortens the channel access duration of devices, devices with ECAM have lower power consumption. To compare the performance of ECAM with that of the IEEE 802.15.4 standard, we carry out extensive simulations. The results show that ECAM yields better performance than the IEEE 802.15.4 standard, especially for dense networks with a heavy traffic load.

To be adaptive to the bursty traffic of the wireless personal area network (WPAN), a superframe structure adjustment algorithm of IEEE 802.15.4 is proposed. According to the channel utilization ratio which is an index of the traffic load, the algorithm adjusts the duty cycle of the superframe automatically. The simulation results show that the algorithm is adaptive to the traffic variations effectively and saves much more energy not only for the end devices but also for the PAN coordinator. Moreover, the algorithm results in better performance on the lower delay and lower packet dropping rate.