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Integral Privacy Co...
Integral Privacy Compliant Statistics Computation
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- Senavirathne, Navoda (författare)
- Högskolan i Skövde,Institutionen för informationsteknologi,Forskningscentrum för Informationsteknologi,Hamilton Institute, Maynooth University, Maynooth, Ireland,Skövde Artificial Intelligence Lab (SAIL)
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- Torra, Vicenç (författare)
- Högskolan i Skövde,Institutionen för informationsteknologi,Forskningscentrum för Informationsteknologi,Hamilton Institute, Maynooth University, Maynooth, Ireland,Skövde Artificial Intelligence Lab (SAIL)
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(creator_code:org_t)
- 2019-09-20
- 2019
- Engelska.
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Ingår i: Data Privacy Management, Cryptocurrencies and Blockchain Technology. - Cham : Springer. - 9783030314996 - 9783030315009 ; , s. 22-38
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Abstract
Ämnesord
Stäng
- Data analysis is expected to provide accurate descriptions of the data. However, this is in opposition to privacy requirements when working with sensitive data. In this case, there is a need to ensure that no disclosure of sensitive information takes place by releasing the data analysis results. Therefore, privacy-preserving data analysis has become significant. Enforcing strict privacy guarantees can significantly distort data or the results of the data analysis, thus limiting their analytical utility (i.e., differential privacy). In an attempt to address this issue, in this paper we discuss how “integral privacy”; a re-sampling based privacy model; can be used to compute descriptive statistics of a given dataset with high utility. In integral privacy, privacy is achieved through the notion of stability, which leads to release of the least susceptible data analysis result towards the changes in the input dataset. Here, stability is explained by the relative frequency of different generators (re-samples of data) that lead to the same data analysis results. In this work, we compare the results of integrally private statistics with respect to different theoretical data distributions and real world data with differing parameters. Moreover, the results are compared with statistics obtained through differential privacy. Finally, through empirical analysis, it is shown that the integral privacy based approach has high utility and robustness compared to differential privacy. Due to the computational complexity of the method we propose that integral privacy to be more suitable towards small datasets where differential privacy performs poorly. However, adopting an efficient re-sampling mechanism can further improve the computational efficiency in terms of integral privacy. © 2019, The Author(s).
Ämnesord
- NATURVETENSKAP -- Data- och informationsvetenskap -- Datavetenskap (hsv//swe)
- NATURAL SCIENCES -- Computer and Information Sciences -- Computer Sciences (hsv//eng)
Nyckelord
- Descriptive statistics
- Privacy-preserving statistics
- Privacy-preseving data analysis
- Blockchain
- Computational efficiency
- Computer privacy
- Electronic money
- Information analysis
- Sampling
- Statistics
- Data distribution
- Differential privacies
- Empirical analysis
- Privacy preserving
- Privacy requirements
- Relative frequencies
- Sensitive informations
- Data privacy
- Skövde Artificial Intelligence Lab (SAIL)
- Skövde Artificial Intelligence Lab (SAIL)
Publikations- och innehållstyp
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- kon (ämneskategori)
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