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Efficient Collaborative Technique using Intrusion Detection System for Preserving Privacy in Location-Based Services


Affiliations
1 Department of Computer Science, King Abdul-Aziz University, Jeddah, Saudi Arabia
2 Department of Computer Science, King Abdul-Aziz University, Jeddah, India
 

The ubiquitous nature of smartphones and GPS-enabled devices, coupled with the increasingly popular usage of location-based services, has effectively created an environment where data access truly is anywhere at any time. While said environment is indeed convenient and quite useful, the unfortunate reality is that users are exposed to a variety of privacy and security threats. User location information can be tracked and then used in malicious ways by non-trusted applications and adversaries. We address this problem by proposing an efficient, collaborative technique that is integrated with an intrusion detection system and rekeying techniques. The algorithm is parameterized by defining performance and security metrics, which can then be used to find optimal settings, both in terms of privacy and quality of service. Based on the proposed performance-security metrics, the tradeoff between privacy and quality of service can be quantified.

Keywords

Intrusion Detection System (IDS), LBRA, Location-Based Services (LBS), Privacy, Rekeying.
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  • Efficient Collaborative Technique using Intrusion Detection System for Preserving Privacy in Location-Based Services

Abstract Views: 323  |  PDF Views: 0

Authors

Muhammad Jawad Ikram
Department of Computer Science, King Abdul-Aziz University, Jeddah, Saudi Arabia
Jonathan Cazalas
Department of Computer Science, King Abdul-Aziz University, Jeddah, India

Abstract


The ubiquitous nature of smartphones and GPS-enabled devices, coupled with the increasingly popular usage of location-based services, has effectively created an environment where data access truly is anywhere at any time. While said environment is indeed convenient and quite useful, the unfortunate reality is that users are exposed to a variety of privacy and security threats. User location information can be tracked and then used in malicious ways by non-trusted applications and adversaries. We address this problem by proposing an efficient, collaborative technique that is integrated with an intrusion detection system and rekeying techniques. The algorithm is parameterized by defining performance and security metrics, which can then be used to find optimal settings, both in terms of privacy and quality of service. Based on the proposed performance-security metrics, the tradeoff between privacy and quality of service can be quantified.

Keywords


Intrusion Detection System (IDS), LBRA, Location-Based Services (LBS), Privacy, Rekeying.