Due to the rapid growth of wireless medical devices in near future, wireless healthcare services may face some inescapable issue such as medical spectrum scarcity, electromagnetic interference (EMI), bandwidth constraint, security and finally medical data communication model. To mitigate these issues, cognitive radio (CR) or opportunistic radio network enabled wireless technology is suitable for the upcoming wireless healthcare system. The up-to-date research on CR based healthcare has exposed some developments on EMI and spectrum problems. However, the investigation recommendation on system design and network model for CR enabled hospital is rare. Thus, this research designs a hierarchy based hybrid network architecture and network maintenance protocols for previously proposed CR hospital system, known as CogMed. In the previous study, the detail architecture of CogMed and its maintenance protocols were not present. The proposed architecture includes clustering concepts for cognitive base stations and non-medical devices. Two cluster head (CH selector equations are formulated based on priority of location, device, mobility rate of devices and number of accessible channels. In order to maintain the integrity of the proposed network model, node joining and node leaving protocols are also proposed. Finally, the simulation results show that the proposed network maintenance time is very low for emergency medical devices (average maintenance period 9.5 ms) and the re-clustering effects for different mobility enabled non-medical devices are also balanced.
[1]
H Stephen Berger,et al.
Managing your hospital RF spectrum.
,
2013,
Biomedical instrumentation & technology.
[2]
Irene Macaluso,et al.
Cognitive Radio Mobile Ad Hoc Networks
,
2010
.
[3]
Ilangko Balasingham,et al.
Cognitive radio for medical body area networks using ultra wideband
,
2012,
IEEE Wireless Communications.
[4]
Sujitha Juliet Devaraj,et al.
Current trends and future challenges in wireless telemedicine system
,
2011,
2011 3rd International Conference on Electronics Computer Technology.
[5]
Dongmei Zhao,et al.
Providing telemedicine services in an infrastructure-based cognitive radio network
,
2010,
IEEE Wireless Communications.
[6]
Toshio Wakabayashi,et al.
Definition, design and priority management of a cognitive radio driven hospital: CogMed
,
2014,
2014 IEEE Conference on Biomedical Engineering and Sciences (IECBES).
[7]
Dusit Niyato,et al.
A cognitive radio system for e-health applications in a hospital environment
,
2010,
IEEE Wireless Communications.