Location Privacy Protection in Mobile Networks [electronic resource] /by Xinxin Liu, Xiaolin Li.
by Liu, Xinxin [author.]; Li, Xiaolin [author.]; SpringerLink (Online service).
Material type:
BookSeries: SpringerBriefs in Computer Science: Publisher: New York, NY : Springer New York : 2013.Description: XII, 75 p. 23 illus. online resource.ISBN: 9781461490746.Subject(s): Computer science | Computer Communication Networks | Data protection | Data structures (Computer science) | Data encryption (Computer science) | Telecommunication | Computer Science | Systems and Data Security | Computer Communication Networks | Data Encryption | Communications Engineering, Networks | Data Structures, Cryptology and Information TheoryDDC classification: 005.8 Online resources: Click here to access online | Item type | Current location | Call number | Status | Date due | Barcode |
|---|---|---|---|---|---|
| MAIN LIBRARY | QA76.9.A25 (Browse shelf) | Available |
Browsing MAIN LIBRARY Shelves Close shelf browser
| QA76.9.A25 Security for Cloud Storage Systems | QA76.9.A25 Secure Smart Embedded Devices, Platforms and Applications | QA76.9.A25 Trustworthy Execution on Mobile Devices | QA76.9.A25 Location Privacy Protection in Mobile Networks | QA76.9.A25 Secure Cloud Computing | QA76.9.A25 Distributed Denial of Service Attack and Defense | QA76.9.A25 Information Assurance |
Introduction -- Privacy Preservation Using Multiple Mix Zones -- Privacy Preservation Using Game-Theoretic Approach -- Privacy Preservation Using Logical Coordinates -- Conclusion and Future Directions.
This SpringerBrief analyzes the potential privacy threats in wireless and mobile network environments, and reviews some existing works. It proposes multiple privacy preserving techniques against several types of privacy threats that are targeting users in a mobile network environment. Depending on the network architecture, different approaches can be adopted. The first proposed approach considers a three-party system architecture where there is a trusted central authority that can be used to protect users’ privacy. The second approach considers a totally distributed environment where users perform privacy protection by themselves. Finally, more general system architecture is discussed including how a semi-trusted server may exist, but users need to collaborate to achieve maximized privacy protection. This brief is designed for researchers and professionals working with privacy preservation, mobile networks, and threat models. The variety of approaches presented makes it useful for students as well.
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