Estimating age privacy leakage in online social networks

Trust is an important criterion for access control in the field of online social networks privacy preservation. In the present methods, the subjectivity and individualization of the trust is ignored and a fixed model is built for all the users. In fact, different users probably take different trust features into their considerations when making trust decisions. Besides, in the present schemes, only users’ static features are mapped into trust values, without the risk of privacy leakage. In this article, the features that each user cares about when making trust decisions are mined by machine learning to be User-Will. The privacy leakage risk of the evaluated user is estimated through information flow predicting. Then the User-Will and the privacy leakage risk are all mapped into trust evidence to be combined by an improved evidence combination rule of the evidence theory. In the end, several typical methods and the proposed scheme are implemented to compare the performance on dataset Epinions. Our scheme is verified to be more advanced than the others by comparing the F-Score and the Mean Error of the trust evaluation results.

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Think Twice before You Share: Analyzing Privacy Leakage under Privacy Control in Online Social Networks

Network and System Security - Lecture Notes in Computer Science ◽

10.1007/978-3-642-38631-2_55 ◽

2013 ◽

pp. 671-677

Author(s):

Yan Li ◽

Yingjiu Li ◽

Qiang Yan ◽

Robert H. Deng

Keyword(s):

Social Networks ◽

Online Social Networks ◽

Privacy Leakage

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#DontTweetThis: Scoring Private Information in Social Networks

Proceedings on Privacy Enhancing Technologies ◽

10.2478/popets-2019-0059 ◽

2019 ◽

Vol 2019 (4) ◽

pp. 72-92 ◽

Cited By ~ 2

Author(s):

Qiaozhi Wang ◽

Hao Xue ◽

Fengjun Li ◽

Dongwon Lee ◽

Bo Luo

Keyword(s):

Social Networks ◽

Private Information ◽

Online Social Networks ◽

Quantitative Model ◽

Social Contexts ◽

Sensitive Information ◽

Context Aware ◽

Privacy Leakage ◽

Privacy Risks ◽

Context Free

Abstract With the growing popularity of online social networks, a large amount of private or sensitive information has been posted online. In particular, studies show that users sometimes reveal too much information or unintentionally release regretful messages, especially when they are careless, emotional, or unaware of privacy risks. As such, there exist great needs to be able to identify potentially-sensitive online contents, so that users could be alerted with such findings. In this paper, we propose a context-aware, text-based quantitative model for private information assessment, namely PrivScore, which is expected to serve as the foundation of a privacy leakage alerting mechanism. We first solicit diverse opinions on the sensitiveness of private information from crowdsourcing workers, and examine the responses to discover a perceptual model behind the consensuses and disagreements. We then develop a computational scheme using deep neural networks to compute a context-free PrivScore (i.e., the “consensus” privacy score among average users). Finally, we integrate tweet histories, topic preferences and social contexts to generate a personalized context-aware PrivScore. This privacy scoring mechanism could be employed to identify potentially-private messages and alert users to think again before posting them to OSNs.

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Graph Convolutional Networks for Privacy Metrics in Online Social Networks

Applied Sciences ◽

10.3390/app10041327 ◽

2020 ◽

Vol 10 (4) ◽

pp. 1327

Author(s):

Xuefeng Li ◽

Yang Xin ◽

Chensu Zhao ◽

Yixian Yang ◽

Yuling Chen

Keyword(s):

Social Networks ◽

Online Social Networks ◽

Large Scale ◽

Graph Structure ◽

Human Intervention ◽

Structure Information ◽

Convolutional Networks ◽

Learning Framework ◽

Privacy Leakage ◽

Behavioural Characteristics

In recent years, privacy leakage events in large-scale social networks have become increasingly frequent. Traditional methods relying on operators have been unable to effectively curb this problem. Researchers must turn their attention to the privacy protection of users themselves. Privacy metrics are undoubtedly the most effective method. However, social networks have a substantial number of users and a complex network structure and feature set. Previous studies either considered a single aspect or measured multiple aspects separately and then artificially integrated them. The measurement procedures are complex and cannot effectively be integrated. To solve the above problems, we first propose using a deep neural network to measure the privacy status of social network users. Through a graph convolution network, we can easily and efficiently combine the user features and graph structure, determine the hidden relationships between these features, and obtain more accurate privacy scores. Given the restriction of the deep learning framework, which requires a large number of labelled samples, we incorporate a few-shot learning method, which greatly reduces the dependence on labelled data and human intervention. Our method is applicable to online social networks, such as Sina Weibo, Twitter, and Facebook, that can extract profile information, graph structure information of users’ friends, and behavioural characteristics. The experiments show that our model can quickly and accurately obtain privacy scores in a whole network and eliminate traditional tedious numerical calculations and human intervention.

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