SoK: Efficient Privacy-preserving Clustering

Hegde, Aditya; Möllering, Helen; Schneider, Thomas; Yalame, Hossein

doi:10.2478/popets-2021-0068

Cited by 18 publications

(6 citation statements)

References 120 publications

(321 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Experiments show that the proposed system is effective, scalable, and makes accurate recommendations. Hedge et al [34] conducted a comprehensive analysis of privacy-preserving clustering techniques. They implemented and evaluated four efficient clustering protocols that ensure complete privacy.…”

Section: Related Workmentioning

confidence: 99%

Robustness Analysis of a Novel Model-Based Recommendation Algorithms in Privacy Environment

2024

KSII TIIS

View full text Add to dashboard Cite

The concept of privacy-preserving collaborative filtering (PPCF) has been gaining significant attention. Due to the fact that model-based recommendation methods with privacy are more efficient online, privacy-preserving memory-based scheme should be avoided in favor of model-based recommendation methods with privacy. Several studies in the current literature have examined ant colony clustering algorithms that are based on non-privacy collaborative filtering schemes. Nevertheless, the literature does not contain any studies that consider privacy in the context of ant colony clustering-based CF schema. This study employed the ant colony clustering model-based PPCF scheme. Attacks like shilling or profile injection could potentially be successful against privacy-preserving model-based collaborative filtering techniques. Afterwards, the scheme's robustness was assessed by conducting a shilling attack using six different attack models. We utilize masked data-based profile injection attacks against a privacy-preserving ant colony clustering-based prediction algorithm. Subsequently, we conduct extensive experiments utilizing authentic data to assess its robustness against profile injection attacks. In addition, we evaluate the resilience of the ant colony clustering model-based PPCF against shilling attacks by comparing it to established PPCF memory and model-based prediction techniques. The empirical findings indicate that push attack models exerted a substantial influence on the predictions, whereas nuke attack models demonstrated limited efficacy.

show abstract

Section: Related Workmentioning

confidence: 99%

Robustness Analysis of a Novel Model-Based Recommendation Algorithms in Privacy Environment

2024

KSII TIIS

View full text Add to dashboard Cite

show abstract

“…The systematization is based on the learning algorithm, the collaborative model, the protection mechanism, and the threat model. In [HMSY21], the authors review and analyze techniques and protocols used for privacy-preserving clustering with respect to efficiency, privacy, and security models. The above studies focus on specific types of machine learning models that require special treatment to be trained collaboratively.…”

Section: Related Studiesmentioning

confidence: 99%

SoK: Secure Aggregation Based on Cryptographic Schemes for Federated Learning

Mansouri

Önen

Jaballah

et al. 2023

PoPETs

View full text Add to dashboard Cite

Secure aggregation consists of computing the sum of data collected from multiple sources without disclosing these individual inputs. Secure aggregation has been found useful for various applications ranging from electronic voting to smart grid measurements. Recently, federated learning emerged as a new collaborative machine learning technology to train machine learning models. In this work, we study the suitability of secure aggregation based on cryptographic schemes to federated learning. We first provide a formal definition of the problem and suggest a systematic categorization of existing solutions. We further investigate the specific challenges raised by federated learning and analyze the recent dedicated secure aggregation solutions based on cryptographic schemes. We finally share some takeaway messages that would help a secure design of federated learning and identify open research directions in this topic. Based on the takeaway messages, we propose an improved definition of secure aggregation that better fits federated learning.

show abstract

“…As an unsupervised machine learning technique, similar input records are grouped into clusters while records belonging to different clusters should be maximally different [ 3 ]. In this work, we focus on clustering, which plays an extremely important role in data processing and analysis.…”

Section: Introductionmentioning

confidence: 99%

“…The K -means algorithm is one of the most well-known clustering algorithms. A privacy-preserving K-means clustering, which has full data privacy, allows the parties to cluster their combined datasets without revealing any other information except for the final centroid [ 3 ]. In other words, the information of intermediate centroids, cluster assignments, and cluster sizes should be protected in the protocol.…”

Section: Introductionmentioning

confidence: 99%

“…Upmanyu et al [ 25 ] and Baby and Chandra [ 26 ] respectively presented a distributed threshold secret sharing scheme based on the Chinese remainder theorem (CRT-SS). However, none of them provide full privacy guarantees as shown in [ 3 ]. In 2020, Mohassel et al [ 27 ] presented 2PC K -means clustering protocol with 2-out-of-2 additive secret sharing, and although it provides full data privacy, it is inefficient in terms of computation and communication overhead, because their work heavily relies on garbled circuit and oblivious transfer (OT).…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Efficient Privacy-Preserving K-Means Clustering from Secret-Sharing-Based Secure Three-Party Computation

Wei

Tang²,

Chen³

2022

Entropy

View full text Add to dashboard Cite

Privacy-preserving machine learning has become an important study at present due to privacy policies. However, the efficiency gap between the plain-text algorithm and its privacy-preserving version still exists. In this paper, we focus on designing a novel secret-sharing-based K-means clustering algorithm. Particularly, we present an efficient privacy-preserving K-means clustering algorithm based on replicated secret sharing with honest-majority in the semi-honest model. More concretely, the clustering task is outsourced to three semi-honest computing servers. Theoretically, the proposed privacy-preserving scheme can be proven with full data privacy. Furthermore, the experimental results demonstrate that our proposed privacy version reaches the same accuracy as the plain-text one. Compared to the existing privacy-preserving scheme, our proposed protocol can achieve about 16.5×–25.2× faster computation and 63.8×–68.0× lower communication. Consequently, the proposed privacy-preserving scheme is suitable for secret-sharing-based secure outsourced computation.

show abstract

SoK: Efficient Privacy-preserving Clustering

Cited by 18 publications

References 120 publications

Robustness Analysis of a Novel Model-Based Recommendation Algorithms in Privacy Environment

Robustness Analysis of a Novel Model-Based Recommendation Algorithms in Privacy Environment

SoK: Secure Aggregation Based on Cryptographic Schemes for Federated Learning

Efficient Privacy-Preserving K-Means Clustering from Secret-Sharing-Based Secure Three-Party Computation

Contact Info

Product

Resources

About