On Location Privacy in Fingerprinting-based Indoor Positioning System: An Encryption Approach

Wenlu Wang; Zhitao Gong; Ji Zhang; Hua Lu; Wei-Shinn Ku

doi:10.1145/3347146.3359081

On Location Privacy in Fingerprinting-based Indoor Positioning System: An Encryption Approach

Wenlu Wang, Zhitao Gong, Ji Zhang, Hua Lu, Wei-Shinn Ku

Publikation: Bidrag til bog/antologi/rapport/konference proceeding › Konferenceartikel i proceeding › Forskning › peer review

4 Citationer (Scopus)

Abstract

Due to the inadequacy of GPS signals in indoor spaces, Indoor Positioning Services (IPSs) have drawn great attention. The popular smartphone localization technique relies on a centralized server to achieve localization, allowing the server to acquire a user's location in fine granularity. To ensure the privacy of IPS users, we propose an Encrypted Indoor Positioning Service (EIPS) model that protects users' privacy from the centralized server and maintains localization accuracy simultaneously. Our EIPS model enables users to encrypt and decrypt their query through an Encryption and Decryption Server (EDS) bi-directionally in a commutative way, so the users' locations remain private to both EIPS and EDS. We also propose Query Split, Artificial Dimensions and Columns to prevent Known Plaintext Attack (KPA). Our analytical and experimental evaluations show that our model is resilient to a variety of privacy attacks without loss of efficiency and accuracy.

Originalsprog	Engelsk
Titel	Proceedings of the 27th ACM SIGSPATIAL International Conference on Advances in Geographic Information Systems
Redaktører	Farnoush Banaei-Kashani, Goce Trajcevski, Ralf Hartmut Guting, Lars Kulik, Shawn Newsam
Antal sider	10
Forlag	Association for Computing Machinery
Publikationsdato	2019
Sider	289-298
ISBN (Elektronisk)	978-1-4503-6909-1
DOI	https://doi.org/10.1145/3347146.3359081
Status	Udgivet - 2019
Begivenhed	International Conference on Advances in Geographic Information Systems - Chicago, USA Varighed: 5 nov. 2019 → 8 nov. 2019 Konferencens nummer: 27th

Konference

Konference	International Conference on Advances in Geographic Information Systems
Nummer	27th
Land/Område	USA
By	Chicago
Periode	05/11/2019 → 08/11/2019

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10.1145/3347146.3359081

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Citationsformater

Wang, W., Gong, Z., Zhang, J., Lu, H., & Ku, W-S. (2019). On Location Privacy in Fingerprinting-based Indoor Positioning System: An Encryption Approach. I F. Banaei-Kashani, G. Trajcevski, R. H. Guting, L. Kulik, & S. Newsam (red.), Proceedings of the 27th ACM SIGSPATIAL International Conference on Advances in Geographic Information Systems (s. 289-298). Association for Computing Machinery. https://doi.org/10.1145/3347146.3359081

Wang, Wenlu ; Gong, Zhitao ; Zhang, Ji et al. / On Location Privacy in Fingerprinting-based Indoor Positioning System : An Encryption Approach. Proceedings of the 27th ACM SIGSPATIAL International Conference on Advances in Geographic Information Systems. red. / Farnoush Banaei-Kashani ; Goce Trajcevski ; Ralf Hartmut Guting ; Lars Kulik ; Shawn Newsam. Association for Computing Machinery, 2019. s. 289-298

@inproceedings{2b63e6b7c8a1446b8fe2bf83b9b6cbf4,

title = "On Location Privacy in Fingerprinting-based Indoor Positioning System: An Encryption Approach",

abstract = "Due to the inadequacy of GPS signals in indoor spaces, Indoor Positioning Services (IPSs) have drawn great attention. The popular smartphone localization technique relies on a centralized server to achieve localization, allowing the server to acquire a user's location in fine granularity. To ensure the privacy of IPS users, we propose an Encrypted Indoor Positioning Service (EIPS) model that protects users' privacy from the centralized server and maintains localization accuracy simultaneously. Our EIPS model enables users to encrypt and decrypt their query through an Encryption and Decryption Server (EDS) bi-directionally in a commutative way, so the users' locations remain private to both EIPS and EDS. We also propose Query Split, Artificial Dimensions and Columns to prevent Known Plaintext Attack (KPA). Our analytical and experimental evaluations show that our model is resilient to a variety of privacy attacks without loss of efficiency and accuracy.",

keywords = "Indoor Positioning System, Privacy-Preserving Queries",

author = "Wenlu Wang and Zhitao Gong and Ji Zhang and Hua Lu and Wei-Shinn Ku",

year = "2019",

doi = "10.1145/3347146.3359081",

language = "English",

pages = "289--298",

editor = "Farnoush Banaei-Kashani and Goce Trajcevski and Guting, {Ralf Hartmut} and Lars Kulik and Shawn Newsam",

booktitle = "Proceedings of the 27th ACM SIGSPATIAL International Conference on Advances in Geographic Information Systems",

publisher = "Association for Computing Machinery",

address = "United States",

note = "International Conference on Advances in Geographic Information Systems, ACM SIGSPATIAL ; Conference date: 05-11-2019 Through 08-11-2019",

}

Wang, W, Gong, Z, Zhang, J, Lu, H & Ku, W-S 2019, On Location Privacy in Fingerprinting-based Indoor Positioning System: An Encryption Approach. i F Banaei-Kashani, G Trajcevski, RH Guting, L Kulik & S Newsam (red), Proceedings of the 27th ACM SIGSPATIAL International Conference on Advances in Geographic Information Systems. Association for Computing Machinery, s. 289-298, International Conference on Advances in Geographic Information Systems, Chicago, USA, 05/11/2019. https://doi.org/10.1145/3347146.3359081

On Location Privacy in Fingerprinting-based Indoor Positioning System: An Encryption Approach. / Wang, Wenlu; Gong, Zhitao; Zhang, Ji et al.
Proceedings of the 27th ACM SIGSPATIAL International Conference on Advances in Geographic Information Systems. red. / Farnoush Banaei-Kashani; Goce Trajcevski; Ralf Hartmut Guting; Lars Kulik; Shawn Newsam. Association for Computing Machinery, 2019. s. 289-298.

Publikation: Bidrag til bog/antologi/rapport/konference proceeding › Konferenceartikel i proceeding › Forskning › peer review

TY - GEN

T1 - On Location Privacy in Fingerprinting-based Indoor Positioning System

T2 - International Conference on Advances in Geographic Information Systems

AU - Wang, Wenlu

AU - Gong, Zhitao

AU - Zhang, Ji

AU - Lu, Hua

AU - Ku, Wei-Shinn

N1 - Conference code: 27th

PY - 2019

Y1 - 2019

N2 - Due to the inadequacy of GPS signals in indoor spaces, Indoor Positioning Services (IPSs) have drawn great attention. The popular smartphone localization technique relies on a centralized server to achieve localization, allowing the server to acquire a user's location in fine granularity. To ensure the privacy of IPS users, we propose an Encrypted Indoor Positioning Service (EIPS) model that protects users' privacy from the centralized server and maintains localization accuracy simultaneously. Our EIPS model enables users to encrypt and decrypt their query through an Encryption and Decryption Server (EDS) bi-directionally in a commutative way, so the users' locations remain private to both EIPS and EDS. We also propose Query Split, Artificial Dimensions and Columns to prevent Known Plaintext Attack (KPA). Our analytical and experimental evaluations show that our model is resilient to a variety of privacy attacks without loss of efficiency and accuracy.

AB - Due to the inadequacy of GPS signals in indoor spaces, Indoor Positioning Services (IPSs) have drawn great attention. The popular smartphone localization technique relies on a centralized server to achieve localization, allowing the server to acquire a user's location in fine granularity. To ensure the privacy of IPS users, we propose an Encrypted Indoor Positioning Service (EIPS) model that protects users' privacy from the centralized server and maintains localization accuracy simultaneously. Our EIPS model enables users to encrypt and decrypt their query through an Encryption and Decryption Server (EDS) bi-directionally in a commutative way, so the users' locations remain private to both EIPS and EDS. We also propose Query Split, Artificial Dimensions and Columns to prevent Known Plaintext Attack (KPA). Our analytical and experimental evaluations show that our model is resilient to a variety of privacy attacks without loss of efficiency and accuracy.

KW - Indoor Positioning System

KW - Privacy-Preserving Queries

UR - http://www.scopus.com/inward/record.url?scp=85076972214&partnerID=8YFLogxK

U2 - 10.1145/3347146.3359081

DO - 10.1145/3347146.3359081

M3 - Article in proceeding

SP - 289

EP - 298

BT - Proceedings of the 27th ACM SIGSPATIAL International Conference on Advances in Geographic Information Systems

A2 - Banaei-Kashani, Farnoush

A2 - Trajcevski, Goce

A2 - Guting, Ralf Hartmut

A2 - Kulik, Lars

A2 - Newsam, Shawn

PB - Association for Computing Machinery

Y2 - 5 November 2019 through 8 November 2019

ER -

Wang W, Gong Z, Zhang J, Lu H, Ku W-S. On Location Privacy in Fingerprinting-based Indoor Positioning System: An Encryption Approach. I Banaei-Kashani F, Trajcevski G, Guting RH, Kulik L, Newsam S, red., Proceedings of the 27th ACM SIGSPATIAL International Conference on Advances in Geographic Information Systems. Association for Computing Machinery. 2019. s. 289-298 doi: 10.1145/3347146.3359081

On Location Privacy in Fingerprinting-based Indoor Positioning System: An Encryption Approach

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