Abstract
The amount of Internet data is significantly increasing due to the development of network technology, inducing the appearance of big data. Experiments have shown that deep mining and analysis on large datasets would introduce great benefits. Although cloud computing supports data analysis in an outsourced and cost-effective way, it brings serious privacy issues when sending the original data to cloud servers. Meanwhile, the returned analysis result suffers from malicious inference attacks and also discloses user privacy. In this paper, to conquer the above privacy issues, we propose a general framework for Preserving Multiparty Data Privacy (PMDP for short) in cloud computing. The PMDP framework can protect numeric data computing and publishing with the assistance of untrusted cloud servers and achieve delegation of storage simultaneously. Our framework is built upon several cryptography primitives (e.g., secure multiparty computation) and differential privacy mechanism, which guarantees its security against semihonest participants without collusion. We further instantiate PMDP with specific algorithms and demonstrate its security, efficiency, and advantages by presenting security analysis and performance discussion. Moreover, we propose a security enhanced framework sPMDP to resist malicious inside participants and outside adversaries. We illustrate that both PMDP and sPMDP are reliable and scale well and thus are desirable for practical applications.
Highlights
With the significantly increasing data size and the rapid development of the corresponding data analysis technology, the original data, which usually has characteristics of big volume, heterogeneity, and low quality, begins to play a very important role in various fields, such as healthcare, advertisement, government decision-making, and transportation
In this paper we propose a general framework for Preserving Multiparty Data Privacy (PMDP for short) in cloud computing, which provides complete protection throughout the entire life cycle of users’ data and is suitable for securing multiparty data aggregation and publication with the assistance of an untrusted cloud server
Since we extend the security models in traditional multiparty computation (MPC) protocols to those in our sPMDP framework, in the following security analysis we mainly focus on demonstrating that the output privacy cannot be violated since the input and computational privacy are already proven to be guaranteed by former works on MPC [23]
Summary
With the significantly increasing data size and the rapid development of the corresponding data analysis technology, the original data, which usually has characteristics of big volume, heterogeneity, and low quality, begins to play a very important role in various fields, such as healthcare, advertisement, government decision-making, and transportation. Cloud computing provides a ubiquitous and on-demand approach of accessing a shared pool of configurable computing resources, which can be rapidly provisioned and released with minimal management effort [1] It gives a desirable platform for big data processing and enables users to outsource their computations to cloud servers with powerful computing capabilities sufficient for big data processing. In this paper we propose a general framework for Preserving Multiparty Data Privacy (PMDP for short) in cloud computing, which provides complete protection throughout the entire life cycle of users’ data and is suitable for securing multiparty data aggregation and publication with the assistance of an untrusted cloud server. (1) Based on well studied security mechanisms for preserving user privacy in the process of data storage, processing, and publishing, respectively, we combine these techniques in a nontrivial and tight manner and propose the PMDP framework that covers the full lifecycle of multiple users’ data.
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