Location Privacy Preservation Mechanism for Location-Based Service With Incomplete Location Data

AbstractWith the advance of indoor localization technology, indoor location-based services (ILBS) are gaining popularity. They, however, accompany privacy concerns. ILBS providers track the users’ mobility to learn more about their behavior, and then provide them with improved and personalized services. Our survey of 200 individuals highlighted their concerns about this tracking for potential leakage of their personal/private traits, but also showed their willingness to accept reduced tracking for improved service. In this paper, we propose PR-LBS (Privacy vs. Reward for Location-Based Service), a system that addresses these seemingly conflicting requirements by balancing the users’ privacy concerns and the benefits of sharing location information in indoor location tracking environments. PR-LBS relies on a novel location-privacy criterion to quantify the privacy risks pertaining to sharing indoor location information. It also employs a repeated play model to ensure that the received service is proportionate to the privacy risk. We implement and evaluate PR-LBS extensively with various real-world user mobility traces. Results show that PR-LBS has low overhead, protects the users’ privacy, and makes a good tradeoff between the quality of service for the users and the utility of shared location data for service providers.

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A Novel Attack Tree Based Risk Assessment Approach for Location Privacy Preservation in the VANETs

2011 IEEE International Conference on Communications (ICC) ◽

10.1109/icc.2011.5962947 ◽

2011 ◽

Cited By ~ 14

Author(s):

Dandan Ren ◽

Suguo Du ◽

Haojin Zhu

Keyword(s):

Risk Assessment ◽

Privacy Preservation ◽

Location Privacy ◽

Attack Tree ◽

Assessment Approach

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A K-Anonymity Based Schema for Location Privacy Preservation

IEEE Transactions on Sustainable Computing ◽

10.1109/tsusc.2017.2733018 ◽

2019 ◽

Vol 4 (2) ◽

pp. 156-167 ◽

Cited By ~ 12

Author(s):

Fan Fei ◽

Shu Li ◽

Haipeng Dai ◽

Chunhua Hu ◽

Wanchun Dou ◽

...

Keyword(s):

Privacy Preservation ◽

Location Privacy

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The Use of Location-Based Augmented Reality as Information Media in The Digital Map Application of Jakabaring Sport City

PIKSEL : Penelitian Ilmu Komputer Sistem Embedded and Logic ◽

10.33558/piksel.v9i2.2981 ◽

2021 ◽

Vol 9 (2) ◽

pp. 103-118

Author(s):

Siska Arifiani ◽

Miranda Manurung ◽

Raden Venantius Hari Ginardi

Keyword(s):

Augmented Reality ◽

Tourism Industry ◽

Location Based Service ◽

Current Version ◽

Digital Map ◽

Digital Maps ◽

Location Data ◽

Search Feature ◽

Integrate Technology ◽

Information Media

Jakabaring Sport City (JSC) is an integrated sports facility complex and a public tourist spot in Palembang. Due to its extensive area and numerous facilities, visitors need a map with distinct markers for the landmark to make it easier when walking around. Recent technology advancements and its expanding role in various fields invites the question on how to integrate technology in the tourism industry. This journal aims to create an android-based digital map application with augmented reality (AR) as a guiding medium that will display directions towards the Jakabaring exit gate. This app is built using Maps SDK for Android to build the digital maps, Navigation SDK for Android to run navigation, and Maps for Unity to display AR objects that will show the directions towards the exit. The development focuses on a location-based service using GPS to track the user's whereabouts and provide real-time location data around the user. This application has a location search feature, a guiding direction (route and navigation) to a designed location, and an AR camera feature to display where the JSC exit gate is located. Every feature is working well and able to help users while visiting JSC. However, this application could still be improved in the AR feature because on its current version, it is only able to display directions to the JSC exit gate when users are within a radius of one kilometer or less to the exit.

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Complying with Privacy Legislation: From Legal Text to Implementation of Privacy-Aware Location-Based Services

ISPRS International Journal of Geo-Information ◽

10.3390/ijgi7110442 ◽

2018 ◽

Vol 7 (11) ◽

pp. 442 ◽

Cited By ~ 1

Author(s):

Mehrnaz Ataei ◽

Auriol Degbelo ◽

Christian Kray ◽

Vitor Santos

Keyword(s):

Data Privacy ◽

Location Privacy ◽

Service Providers ◽

Location Based Services ◽

Legal Text ◽

General Data Protection Regulation ◽

Location Data ◽

Privacy Laws ◽

Technical Issues ◽

General Data

An individual’s location data is very sensitive geoinformation. While its disclosure is necessary, e.g., to provide location-based services (LBS), it also facilitates deep insights into the lives of LBS users as well as various attacks on these users. Location privacy threats can be mitigated through privacy regulations such as the General Data Protection Regulation (GDPR), which was introduced recently and harmonises data privacy laws across Europe. While the GDPR is meant to protect users’ privacy, the main problem is that it does not provide explicit guidelines for designers and developers about how to build systems that comply with it. In order to bridge this gap, we systematically analysed the legal text, carried out expert interviews, and ran a nine-week-long take-home study with four developers. We particularly focused on user-facing issues, as these have received little attention compared to technical issues. Our main contributions are a list of aspects from the legal text of the GDPR that can be tackled at the user interface level and a set of guidelines on how to realise this. Our results can help service providers, designers and developers of applications dealing with location information from human users to comply with the GDPR.

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Decentralized collaborative TTP free approach for privacy preservation in location based services

International Journal of Electrical and Computer Engineering (IJECE) ◽

10.11591/ijece.v9i6.pp5376-5385 ◽

2019 ◽

Vol 9 (6) ◽

pp. 5376

Author(s):

Ajaysinh Devendrasinh Rathod ◽

Saurabh Shah ◽

Vivaksha J. Jariwala

Keyword(s):

Privacy Preservation ◽

Location Privacy ◽

Emergency Services ◽

Personal Information ◽

Personal Digital Assistant ◽

Minimum Cost ◽

Location Based Services ◽

Third Party ◽

Trusted Third Party ◽

Recent Trends

In recent trends, growth of location based services have been increased due to the large usage of cell phones, personal digital assistant and other devices like location based navigation, emergency services, location based social networking, location based advertisement, etc. Users are provided with important information based on location to the service provider that results the compromise with their personal information like user’s identity, location privacy etc. To achieve location privacy of the user, cryptographic technique is one of the best technique which gives assurance. Location based services are classified as Trusted Third Party (TTP) & without Trusted Third Party that uses cryptographic approaches. TTP free is one of the prominent approach in which it uses peer-to-peer model. In this approach, important users mutually connect with each other to form a network to work without the use of any person/server. There are many existing approaches in literature for privacy preserving location based services, but their solutions are at high cost or not supporting scalability. In this paper, our aim is to propose an approach along with algorithms that will help the location based services (LBS) users to provide location privacy with minimum cost and improve scalability.

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