With the pervasiveness of smart phones and the
advance of wireless body sensor networks (BSNs), mobile Healthcare
(m-Healthcare), which extends the operation of Healthcare provider into a
pervasive environment for better health monitoring, has attracted considerable
interest recently. However, the flourish of m-Healthcare still faces many
challenges including information security and privacy preservation. In this
paper, we propose a secure and privacy-preserving opportunistic computing
framework, called SPOC, for m-Healthcare emergency. With SPOC, smart phone
resources including computing power and energy can be opportunistically
gathered to process the computing-intensive personal health information (PHI)
during m-Healthcare emergency with minimal privacy disclosure. In specific, to
leverage the PHI privacy disclosure and the high reliability of PHI process and
transmission in m-Healthcare emergency, we introduce an efficient user-centric
privacy access control in SPOC framework, which is based on an attribute-based
access control and a new privacy-preserving scalar product computation (PPSPC)
technique, and allows a medical user to decide who can participate in the
opportunistic computing to assist in processing his overwhelming PHI data.
Detailed security analysis shows that the proposed SPOC framework can
efficiently achieve user-centric privacy access control in m-Healthcare
emergency. In addition, performance evaluations via extensive simulations
demonstrate the SPOC's effectiveness in term of providing high-reliable-PHI
process and transmission while minimizing the privacy disclosure during
m-Healthcare emergency
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