Recent advancement in internet of medical things has enabled deployment of miniaturized, intelligent, and low-power medical devices in, on, or around a human body for unobtrusive and remote health monitoring. The IEEE 802.15.6 standard facilitates such monitoring by enabling low-power and reliable wireless communication between the medical devices. The IEEE 802.15.6 standard employs a carrier sense multiple access with collision avoidance protocol for resource allocation. It utilizes a priority-based backoff procedure by adjusting the contention window bounds of devices according to user requirements. As the performance of this protocol is considerably affected when the number of devices increases, we propose an accurate analytical model to...
Abstract—The IEEE 802.16 standard is a promising technology for the fourth-generation mobile network...
The integration of biomedical sensors with wireless net-work technology may have great potentials in...
University of Technology Sydney. Faculty of Engineering and Information Technology.Future healthcare...
Recent advancement in internet of medical things has enabled deployment of miniaturized, intelligent...
Recent advancement in internet of medical things has enabled deployment of miniaturized, intelligent...
IEEE International Conference on Communications (IEEE ICC 2015). 8 to 12, Jun, 2015, IEEE ICC 2015 -...
This paper focuses on the treatment of uplink traffic of the highest data priority, i.e. Emergency t...
Medical body area networks will employ a range of implantable and body worn devices to support a wid...
This paper presents a mathematical model to characterise the performance of a IEEE 802.15.6 Body Are...
A novel contention probability dynamism for IEEE 802.15.6 standard Mohammed Fatehy1,2 * and Ryuji Ko...
Abstract—A wireless body area network (WBAN) aims to provide real-time and ubiquitous body monitorin...
Body Area Networks (BANs) are an emerging area of wireless personal communications. The IEEE 802.15....
The IEEE 802.16 standard is a promising technology for the fourth-generation mobile networks and is ...
Abstract—The IEEE 802.16 standard is a promising technol-ogy for the fourth-generation mobile networ...
One of the challenges faced by today's Internet of Things (IoT) is to efficiently support machine-To...
Abstract—The IEEE 802.16 standard is a promising technology for the fourth-generation mobile network...
The integration of biomedical sensors with wireless net-work technology may have great potentials in...
University of Technology Sydney. Faculty of Engineering and Information Technology.Future healthcare...
Recent advancement in internet of medical things has enabled deployment of miniaturized, intelligent...
Recent advancement in internet of medical things has enabled deployment of miniaturized, intelligent...
IEEE International Conference on Communications (IEEE ICC 2015). 8 to 12, Jun, 2015, IEEE ICC 2015 -...
This paper focuses on the treatment of uplink traffic of the highest data priority, i.e. Emergency t...
Medical body area networks will employ a range of implantable and body worn devices to support a wid...
This paper presents a mathematical model to characterise the performance of a IEEE 802.15.6 Body Are...
A novel contention probability dynamism for IEEE 802.15.6 standard Mohammed Fatehy1,2 * and Ryuji Ko...
Abstract—A wireless body area network (WBAN) aims to provide real-time and ubiquitous body monitorin...
Body Area Networks (BANs) are an emerging area of wireless personal communications. The IEEE 802.15....
The IEEE 802.16 standard is a promising technology for the fourth-generation mobile networks and is ...
Abstract—The IEEE 802.16 standard is a promising technol-ogy for the fourth-generation mobile networ...
One of the challenges faced by today's Internet of Things (IoT) is to efficiently support machine-To...
Abstract—The IEEE 802.16 standard is a promising technology for the fourth-generation mobile network...
The integration of biomedical sensors with wireless net-work technology may have great potentials in...
University of Technology Sydney. Faculty of Engineering and Information Technology.Future healthcare...