Multi-round efficient and secure truth discovery in mobile crowdsensing systems
Privacy-preserving truth discovery, as a data aggregation algorithm that can extract reliable results from disparate and conflicting data in a privacy-preserving manner, has received a lot of attention in ensuring the reliability and privacy of data in mobile crowdsensing systems. However, most of t...
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2024
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sg-smu-ink.sis_research-96692024-02-22T03:00:04Z Multi-round efficient and secure truth discovery in mobile crowdsensing systems HU, Chenfei LI, Zihan XU, Yuhua ZHANG, Chuan LIU, Ximeng HE, Daojing ZHU, Liehuang Privacy-preserving truth discovery, as a data aggregation algorithm that can extract reliable results from disparate and conflicting data in a privacy-preserving manner, has received a lot of attention in ensuring the reliability and privacy of data in mobile crowdsensing systems. However, most of the existing work requires that workers must stay online all the time during the full process of truth discovery. Although a few recent schemes have been proposed to tolerate worker dropout, they are tailored for a single-round setting. Repeating these schemes several times to adapt to the truth discovery will introduce significant computational and communication overheads, especially for the workers. To solve the above challenges, in this paper, we propose a multi-round efficient and secure truth discovery scheme in mobile crowdsensing systems that can balance the 3-way trade-off between privacy protection, dropout tolerance, and protocol efficiency. Specifically, we devise a novel mask generation capable of reusing secrets to eliminate the costly overhead of workers needing to recompute new secrets each round. Besides, we design a lightweight dropout tolerance mechanism to guarantee that even if workers drop out halfway, the server can still acquire meaningful truth. Rigorous security analysis and extensive experimental results demonstrate the privacy and efficiency of our scheme, respectively. 2024-01-01T08:00:00Z text https://ink.library.smu.edu.sg/sis_research/8666 info:doi/10.1109/JIOT.2024.3359757 Research Collection School Of Computing and Information Systems eng Institutional Knowledge at Singapore Management University Crowdsensing Data privacy Dropout tolerance Mask generation Mobile crowdsensing Multi-round Privacy Privacy-preserving Protocols Sensors Servers Task analysis Truth discovery Information Security |
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Crowdsensing Data privacy Dropout tolerance Mask generation Mobile crowdsensing Multi-round Privacy Privacy-preserving Protocols Sensors Servers Task analysis Truth discovery Information Security |
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Crowdsensing Data privacy Dropout tolerance Mask generation Mobile crowdsensing Multi-round Privacy Privacy-preserving Protocols Sensors Servers Task analysis Truth discovery Information Security HU, Chenfei LI, Zihan XU, Yuhua ZHANG, Chuan LIU, Ximeng HE, Daojing ZHU, Liehuang Multi-round efficient and secure truth discovery in mobile crowdsensing systems |
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Privacy-preserving truth discovery, as a data aggregation algorithm that can extract reliable results from disparate and conflicting data in a privacy-preserving manner, has received a lot of attention in ensuring the reliability and privacy of data in mobile crowdsensing systems. However, most of the existing work requires that workers must stay online all the time during the full process of truth discovery. Although a few recent schemes have been proposed to tolerate worker dropout, they are tailored for a single-round setting. Repeating these schemes several times to adapt to the truth discovery will introduce significant computational and communication overheads, especially for the workers. To solve the above challenges, in this paper, we propose a multi-round efficient and secure truth discovery scheme in mobile crowdsensing systems that can balance the 3-way trade-off between privacy protection, dropout tolerance, and protocol efficiency. Specifically, we devise a novel mask generation capable of reusing secrets to eliminate the costly overhead of workers needing to recompute new secrets each round. Besides, we design a lightweight dropout tolerance mechanism to guarantee that even if workers drop out halfway, the server can still acquire meaningful truth. Rigorous security analysis and extensive experimental results demonstrate the privacy and efficiency of our scheme, respectively. |
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text |
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HU, Chenfei LI, Zihan XU, Yuhua ZHANG, Chuan LIU, Ximeng HE, Daojing ZHU, Liehuang |
| author_facet |
HU, Chenfei LI, Zihan XU, Yuhua ZHANG, Chuan LIU, Ximeng HE, Daojing ZHU, Liehuang |
| author_sort |
HU, Chenfei |
| title |
Multi-round efficient and secure truth discovery in mobile crowdsensing systems |
| title_short |
Multi-round efficient and secure truth discovery in mobile crowdsensing systems |
| title_full |
Multi-round efficient and secure truth discovery in mobile crowdsensing systems |
| title_fullStr |
Multi-round efficient and secure truth discovery in mobile crowdsensing systems |
| title_full_unstemmed |
Multi-round efficient and secure truth discovery in mobile crowdsensing systems |
| title_sort |
multi-round efficient and secure truth discovery in mobile crowdsensing systems |
| publisher |
Institutional Knowledge at Singapore Management University |
| publishDate |
2024 |
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https://ink.library.smu.edu.sg/sis_research/8666 |
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1794549708008456192 |