Reliable and privacy-preserving truth discovery for mobile crowdsensing systems
Truth discovery has received considerable attention in mobile crowdsensing systems. In real practice, it is vital to resolve conflicts among a large amount of sensory data and estimate the truthful information. Although truth discovery has been widely explored to improve aggregation accuracy, numero...
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2019
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sg-smu-ink.sis_research-54142019-08-05T06:06:05Z Reliable and privacy-preserving truth discovery for mobile crowdsensing systems ZHANG, Chuan ZHU, Liehuang XU, Chang LIU, Ximeng SHARIF, Kashif Truth discovery has received considerable attention in mobile crowdsensing systems. In real practice, it is vital to resolve conflicts among a large amount of sensory data and estimate the truthful information. Although truth discovery has been widely explored to improve aggregation accuracy, numerous security and privacy issues still need to be addressed. Existing schemes either do not guarantee the privacy of each participating user, or fail to consider practical needs in crowdsensing systems. In this paper, we present two reliable and privacy-preserving truth discovery schemes for different scenarios. Our first design is fit for applications where users are relatively stable. By employing the homomorphic Paillier encryption, one-way hash chain, and super-increasing sequence techniques, this approach not only guarantees strong privacy, but also is highly efficient and practical. Our second design suits applications where users are frequently moving. In such an application, we explore data perturbation and homomorphic Paillier encryption to shift all user workloads to the server side, without compromising users' privacy. Through detailed security analysis, we demonstrate that both schemes are secure, practical, and privacy-preserving. Moreover, extensive experiments based on real world and simulated mobile crowdsensing systems, we demonstrate the efficiency of our proposed schemes. 2019-01-01T08:00:00Z text https://ink.library.smu.edu.sg/sis_research/4411 info:doi/10.1109/TDSC.2019.2919517 Research Collection School Of Computing and Information Systems eng Institutional Knowledge at Singapore Management University Cloud computing Cryptography Data aggregation Data privacy Mobile crowdsensing Privacy Privacy-preserving Reliability Reliable Sensors Truth discovery Information Security |
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Cloud computing Cryptography Data aggregation Data privacy Mobile crowdsensing Privacy Privacy-preserving Reliability Reliable Sensors Truth discovery Information Security |
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Cloud computing Cryptography Data aggregation Data privacy Mobile crowdsensing Privacy Privacy-preserving Reliability Reliable Sensors Truth discovery Information Security ZHANG, Chuan ZHU, Liehuang XU, Chang LIU, Ximeng SHARIF, Kashif Reliable and privacy-preserving truth discovery for mobile crowdsensing systems |
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Truth discovery has received considerable attention in mobile crowdsensing systems. In real practice, it is vital to resolve conflicts among a large amount of sensory data and estimate the truthful information. Although truth discovery has been widely explored to improve aggregation accuracy, numerous security and privacy issues still need to be addressed. Existing schemes either do not guarantee the privacy of each participating user, or fail to consider practical needs in crowdsensing systems. In this paper, we present two reliable and privacy-preserving truth discovery schemes for different scenarios. Our first design is fit for applications where users are relatively stable. By employing the homomorphic Paillier encryption, one-way hash chain, and super-increasing sequence techniques, this approach not only guarantees strong privacy, but also is highly efficient and practical. Our second design suits applications where users are frequently moving. In such an application, we explore data perturbation and homomorphic Paillier encryption to shift all user workloads to the server side, without compromising users' privacy. Through detailed security analysis, we demonstrate that both schemes are secure, practical, and privacy-preserving. Moreover, extensive experiments based on real world and simulated mobile crowdsensing systems, we demonstrate the efficiency of our proposed schemes. |
| format |
text |
| author |
ZHANG, Chuan ZHU, Liehuang XU, Chang LIU, Ximeng SHARIF, Kashif |
| author_facet |
ZHANG, Chuan ZHU, Liehuang XU, Chang LIU, Ximeng SHARIF, Kashif |
| author_sort |
ZHANG, Chuan |
| title |
Reliable and privacy-preserving truth discovery for mobile crowdsensing systems |
| title_short |
Reliable and privacy-preserving truth discovery for mobile crowdsensing systems |
| title_full |
Reliable and privacy-preserving truth discovery for mobile crowdsensing systems |
| title_fullStr |
Reliable and privacy-preserving truth discovery for mobile crowdsensing systems |
| title_full_unstemmed |
Reliable and privacy-preserving truth discovery for mobile crowdsensing systems |
| title_sort |
reliable and privacy-preserving truth discovery for mobile crowdsensing systems |
| publisher |
Institutional Knowledge at Singapore Management University |
| publishDate |
2019 |
| url |
https://ink.library.smu.edu.sg/sis_research/4411 |
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1770574701506068480 |