Can multiple subchannels improve the delay performance of RTS/CTS-based MAC schemes?
IEEE Transactions on Wireless Communications
A cognitive radio system for e-health applications in a hospital environment
IEEE Wireless Communications
Wireless sensor networks for healthcare: A survey
Computer Networks: The International Journal of Computer and Telecommunications Networking
Software Defined Radio: Challenges and Opportunities
IEEE Communications Surveys & Tutorials
Analyzing multi-channel medium access control schemes with ALOHA reservation
IEEE Transactions on Wireless Communications
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The importance of wireless technology in modern medicine has increased in the last years. It is anticipated that a large number of wireless communication devices for e-health will operate in unlicensed frequency bands in indoor environments. This represents a coexistence problem, which will be particularly challenging in confined areas of hospitals. Electromagnetic interference (EMI) from wireless devices can disrupt the performance of non-communication electronic medical equipment. Cognitive radio is a technology that can ease the coexistence by protecting non-communication electronic medical equipment. In this work we improved a cognitive radio EMI-aware protocol for e-health applications. The original protocol protects medical equipment from harmful interference by preventing wireless transmissions when interference immunity levels are exceeded. However, this leads to high outage probability in areas where protected medical apparatuses are located. In order to maintain a low outage probability under this scheme, we propose the use of an additional channel in a different frequency band for control/data transmission from potential interference sources. We considered the recently allocated 2360--2400 MHz for medical body area networks and the 902--928 MHz band for allocation of the additional control/data channel. Simulation results demonstrated that the use of the proposed dual-band EMI-aware protocol using the 902--928 MHz band significantly reduces the outage probability.