776 research outputs found
A Privacy-Preserving Outsourced Data Model in Cloud Environment
Nowadays, more and more machine learning applications, such as medical
diagnosis, online fraud detection, email spam filtering, etc., services are
provided by cloud computing. The cloud service provider collects the data from
the various owners to train or classify the machine learning system in the
cloud environment. However, multiple data owners may not entirely rely on the
cloud platform that a third party engages. Therefore, data security and privacy
problems are among the critical hindrances to using machine learning tools,
particularly with multiple data owners. In addition, unauthorized entities can
detect the statistical input data and infer the machine learning model
parameters. Therefore, a privacy-preserving model is proposed, which protects
the privacy of the data without compromising machine learning efficiency. In
order to protect the data of data owners, the epsilon-differential privacy is
used, and fog nodes are used to address the problem of the lower bandwidth and
latency in this proposed scheme. The noise is produced by the
epsilon-differential mechanism, which is then added to the data. Moreover, the
noise is injected at the data owner site to protect the owners data. Fog nodes
collect the noise-added data from the data owners, then shift it to the cloud
platform for storage, computation, and performing the classification tasks
purposes
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