Enabling Data Trustworthiness and User Privacy in Mobile Crowdsensing

Mobile Crowdsensing (MCS) has evolved into an effective and valuable paradigm to engage mobile users to sense and collect urban-scale information. However, users risk their location privacy while reporting data with actual sensing locations. Existing works of location privacy-preserving are primarily based on single-region location information, which rely on a trusted and centralized sensing platform and ignore the impact of regional differences on user privacy-preserving demands. To tackle this issue, we propose a Location Difference-Based Privacy-Preserving Framework (LDPF), leveraging the powerful edge servers deployed between users and the sensing platform to hide and manage users according to regional user characteristics. More specifically, for popular regions, based on the edge servers and the k-anonymity algorithm, we propose a Coordinate Transformation and Bit Commitment (CTBC) privacy-preserving method that effectively guarantees the privacy of location data without relying on a trusted sensing platform. For remote regions, based on a more realistic distance calculation mode, we design a Paillier Encryption Data Coding (PDC) privacy-preserving method that realizes the secure computation for users’ location and prevents malicious users from deceiving. The theoretical analysis and simulation results demonstrate the security and efficiency of the proposed framework in location difference-based privacy-preserving.

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User privacy and data trustworthiness in mobile crowd sensing

IEEE Wireless Communications ◽

10.1109/mwc.2015.7054716 ◽

2015 ◽

Vol 22 (1) ◽

pp. 28-34 ◽

Cited By ~ 53

Author(s):

Daojing He ◽

Sammy Chan ◽

Mohsen Guizani

Keyword(s):

User Privacy ◽

Mobile Crowd Sensing ◽

Crowd Sensing ◽

Data Trustworthiness ◽

Mobile Crowd

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Data Trustworthiness Evaluation in Mobile Crowdsensing Systems with Users’ Trust Dispositions’ Consideration

Sensors ◽

10.3390/s19061326 ◽

2019 ◽

Vol 19 (6) ◽

pp. 1326 ◽

Cited By ~ 5

Author(s):

Eva Zupančič ◽

Borut Žalik

Keyword(s):

Smart Devices ◽

Accurate Information ◽

Key Factors ◽

Gompertz Function ◽

Subjective Data ◽

Mobile Crowdsensing ◽

Novel Method ◽

Data Trustworthiness ◽

Willingness To Contribute ◽

Analyze Data

Mobile crowdsensing is a powerful paradigm that exploits the advanced sensing capabilities and ubiquity of smartphones in order to collect and analyze data on a scale that is impossible with fixed sensor networks. Mobile crowdsensing systems incorporate people and rely on their participation and willingness to contribute up-to-date and accurate information, meaning that such systems are prone to malicious and erroneous data. Therefore, trust and reputation are key factors that need to be addressed in order to ensure sustainability of mobile crowdsensing systems. The objective of this work is to define the conceptual trust framework that considers human involvement in mobile crowdsensing systems and takes into account that users contribute their opinions and other subjective data besides the raw sensing data generated by their smart devices. We propose a novel method to evaluate the trustworthiness of data contributed by users that also considers the subjectivity in the contributed data. The method is based on a comparison of users’ trust attitudes and applies nonparametric statistic methods. We have evaluated the performance of our method with extensive simulations and compared it to the method proposed by Huang that adopts Gompertz function for rating the contributions. The simulation results showed that our method outperforms Huang’s method by 28.6% on average and the method without data trustworthiness calculation by 33.6% on average in different simulation settings.

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A Review on 3GPP 5G Security Aspects

10.34048/acc.2019.2.cf ◽

2019 ◽

Author(s):

Rajavelsamy R ◽

Debabrata Das

Keyword(s):

Network Architecture ◽

Base Station ◽

Cellular Systems ◽

Core Network ◽

User Privacy ◽

Wireless Backhaul ◽

Level Of Use ◽

Unified Authentication ◽

3Rd Generation Partnership Project ◽

5G Security

5G promises to support new level of use cases that will deliver a better user experience. The 3rd Generation Partnership Project (3GPP) [1] defined 5G system introduced fundamental changes on top of its former cellular systems in several design areas, including security. Unlike in the legacy systems, the 5G architecture design considers Home control enhancements for roaming customer, tight collaboration with the 3rd Party Application servers, Unified Authentication framework to accommodate various category of devices and services, enhanced user privacy, and secured the new service based core network architecture. Further, 3GPP is investigating the enhancements to the 5G security aspects to support longer security key lengths, False Base station detection and wireless backhaul in the Phase-2 of 5G standardization [2]. This paper provides the key enhancements specified by the 3GPP for 5G system, particularly the differences to the 4G system and the rationale behind the decisions.

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A MATHEMATICAL TRUST MODEL TO ENSURE IN THE INFORMATION ENVIRONMENT

Сборник избранных статей по материалам научных конференций ГНИИ “Нацразвитие” (Санкт-Петербург, Июнь 2020) ◽

10.37539/june291.2020.55.98.007 ◽

2020 ◽

Author(s):

Мадина Усенбай ◽

Акмарал Иманбаева

Keyword(s):

Trust Model ◽

Time Parameter ◽

Information Environment ◽

User Privacy ◽

Cloud Technology ◽

Secret Information ◽

Dynamic Objects

Конфиденциальность является одним из важных параметров для повышения безопасности в сети, цель которого - сохранить секретную информацию. Рассмотрена модель доверия, состоящая из текущих и прошлых оценок на основе репутации объекта в сети. В модели используется параметр времени для защиты конфиденциальности пользователя для статических и динамических объектов, например, в IoT или облачной технологии. Confidentiality is one of the important parameters for increasing security on the network, the coal of which is to keep secret information. A trust model consisting of current and past assessments based on the object reputation in the network is considered. The model uses a time parameter to protect user privacy for static and dynamic objects, for example, in IoT or cloud technology.

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Tracing or Tracking? A Preliminary Analysis of COVID-19 Outbreak Tracker Apps on Android and User Privacy (Preprint)

10.2196/preprints.19662 ◽

2020 ◽

Author(s):

Alex Akinbi ◽

Ehizojie Ojie

Keyword(s):

Preliminary Analysis ◽

Service Providers ◽

User Participation ◽

Memory Storage ◽

Phone Call ◽

Contact Tracing ◽

Privacy Rights ◽

User Privacy ◽

Android Apps ◽

User Data

BACKGROUND Technology using digital contact tracing apps has the potential to slow the spread of COVID-19 outbreaks by recording proximity events between individuals and alerting people who have been exposed. However, there are concerns about the abuse of user privacy rights as such apps can be repurposed to collect private user data by service providers and governments who like to gather their citizens’ private data. OBJECTIVE The objective of our study was to conduct a preliminary analysis of 34 COVID-19 trackers Android apps used in 29 individual countries to track COVID-19 symptoms, cases, and provide public health information. METHODS We identified each app’s AndroidManifest.xml resource file and examined the dangerous permissions requested by each app. RESULTS The results in this study show 70.5% of the apps request access to user location data, 47% request access to phone activities including the phone number, cellular network information, and the status of any ongoing calls. 44% of the apps request access to read from external memory storage and 2.9% request permission to download files without notification. 17.6% of the apps initiate a phone call without giving the user option to confirm the call. CONCLUSIONS The contributions of this study include a description of these dangerous permissions requested by each app and its effects on user privacy. We discuss principles that must be adopted in the development of future tracking and contact tracing apps to preserve the privacy of users and show transparency which in turn will encourage user participation.

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