Torino : Edizioni di comunita, 2002

88-24-50643-7

IX,173 p. ; 21 cm

Confini di comunità ; 2

363

DARPU

2503 sez. Andriello

Italiano

Milano : F. Angeli, 1984

212 p. : ill. ; 22 cm

Sociologia ; 77

XXX.B. Coll. 63/ 32 (Coll CJ 77)

Italiano

Cham : , : Springer International Publishing : , : Imprint : Springer, , 2018

3-030-02113-0

1 online resource (98 pages)

SpringerBriefs in Electrical and Computer Engineering, , 2191-8112

005.8

Data protection

Wireless communication systems

Mobile communication systems

Electrical engineering

Security

Wireless and Mobile Communication

Communications Engineering, Networks

Inglese

1 Introduction -- 2 Privacy-enhancing Technologies -- 3 Identity Privacy Protection in Smart Parking Navigation -- 4 Location Privacy Protection in Mobile Crowdsensing -- 5 Data Privacy Protection in Smart Grid -- 6 Conclusions and Future Directions.

This SpringerBrief covers the security and privacy challenges in fog computing, and proposes a new secure and privacy-preserving mechanisms to resolve these challenges for securing fog-assisted IoT applications. Chapter 1 introduces the architecture of fog-assisted IoT applications and the security and privacy challenges in fog computing. Chapter 2 reviews several promising privacy-enhancing techniques and illustrates examples on how to leverage these techniques to enhance the privacy of users in fog computing. Specifically, the authors divide the existing privacy-enhancing techniques into three categories: identity-hidden techniques, location privacy protection and data privacy enhancing techniques. The research is of great importance since security and privacy problems faced by fog computing impede the

healthy development of its enabled IoT applications. With the advanced privacy-enhancing techniques, the authors propose three secure and privacy-preserving protocols for fog computing applications, including smart parking navigation, mobile crowdsensing and smart grid. Chapter 3 introduces identity privacy leakage in smart parking navigation systems, and proposes a privacy-preserving smart parking navigation system to prevent identity privacy exposure and support efficient parking guidance retrieval through road-side units (fogs) with high retrieving probability and security guarantees. Chapter 4 presents the location privacy leakage, during task allocation in mobile crowdsensing, and propose a strong privacy-preserving task allocation scheme that enables location-based task allocation and reputation-based report selection without exposing knowledge about the location and reputation for participators in mobile crowdsensing. Chapter 5 introduces the data privacy leakage in smart grid, and proposes an efficient and privacy-preserving smart metering protocol to allow collectors (fogs) to achieve real-time measurement collection with privacy-enhanced data aggregation. Finally, conclusions and future research directions are given in Chapter 6. This brief validates the significant feature extension and efficiency improvement of IoT devices without sacrificing the security and privacy of users against dishonest fog nodes. It also provides valuable insights on the security and privacy protection for fog-enabled IoT applications. Researchers and professionals who carry out research on security and privacy in wireless communication will want to purchase this SpringerBrief. Also, advanced level students, whose main research area is mobile network security will also be interested in this SpringerBrief. .