Practical Privacy-Preserving Multiparty Linear Programming Based on Problem Transformation

Author

Dreier, Jannik ; Kerschbaum, Florian

Author_Institution

Univ. Grenoble 1, Grenoble, France

fYear

2011

fDate

9-11 Oct. 2011

Firstpage

916

Lastpage

924

Abstract

Cryptographic solutions to privacy-preserving multiparty linear programming are slow. This makes them unsuitable for many economically important applications, such as supply chain optimization, whose size exceeds their practically feasible input range. In this paper we present a privacy-preserving transformation that allows secure outsourcing of the linear program computation in an efficient manner. We evaluate security by quantifying the leakage about the input after the transformation and present implementation results. Using this transformation, we can mostly replace the costly cryptographic operations and securely solve problems several orders of magnitude larger.

Keywords

cryptography; data privacy; linear programming; cryptographic solutions; leakage quantification; privacy-preserving multiparty linear programming; problem transformation; Cryptography; Linear matrix inequalities; Linear programming; Planning; Protocols; Supply chains; Cloud Computing; Collaboration; Leakage Quantification; Linear Programming; Outsourcing; Privacy; Secure Multi-Party Computation; Supply Chain Management;

fLanguage

English

Publisher

ieee

Conference_Titel

Privacy, Security, Risk and Trust (PASSAT) and 2011 IEEE Third Inernational Conference on Social Computing (SocialCom), 2011 IEEE Third International Conference on

Conference_Location

Boston, MA

Print_ISBN

978-1-4577-1931-8

Type

conf

DOI

10.1109/PASSAT/SocialCom.2011.19

Filename

6113241