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Privacy Preservation in IoT: Machine Learning Approaches - Youyang Qu, Longxiang Gao, Shui Yu, Yong Xiang

Privacy Preservation in IoT: Machine Learning Approaches (eBook)

A Comprehensive Survey and Use Cases
eBook Download: PDF
2022 | 1st ed. 2022
XI, 119 Seiten
Springer Nature Singapore (Verlag)
978-981-19-1797-4 (ISBN)
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This book aims to sort out the clear logic of the development of machine learning-driven privacy preservation in IoTs, including the advantages and disadvantages, as well as the future directions in this under-explored domain. In big data era, an increasingly massive volume of data is generated and transmitted in Internet of Things (IoTs), which poses great threats to privacy protection. Motivated by this, an emerging research topic, machine learning-driven privacy preservation, is fast booming to address various and diverse demands of IoTs. However, there is no existing literature discussion on this topic in a systematically manner.

The issues of existing privacy protection methods (differential privacy, clustering, anonymity, etc.) for IoTs, such as low data utility, high communication overload, and unbalanced trade-off, are identified to the necessity of machine learning-driven privacy preservation. Besides, the leading and emerging attacks pose further threats to privacy protection in this scenario. To mitigate the negative impact, machine learning-driven privacy preservation methods for IoTs are discussed in detail on both the advantages and flaws, which is followed by potentially promising research directions.

Readers may trace timely contributions on machine learning-driven privacy preservation in IoTs. The advances cover different applications, such as cyber-physical systems, fog computing, and location-based services. This book will be of interest to forthcoming scientists, policymakers, researchers, and postgraduates.




Dr. Youyang Qu received his Ph.D. degree in Information Technology at School of Information Technology, Deakin University, in 2019, and he is currently serving as Research Fellow in Deakin University. His research interests focus on dealing with security and customizable privacy issues in blockchain, social networks, machine learning, and IoT. He has over 30 publications on top journals and magazines such as IEEE IOTJ, IEEE TII, and IEEE Wireless Communication. He has served as TPC Member for IEEE flagship conferences including IEEE ICC and IEEE Globecom. He is also Publicity Chair of SPDE 2020.

 

Dr. Longxiang Gao received a Ph.D. in Computer Science from Deakin University, Australia. He is currently Senior Lecturer at the School of Information Technology, Deakin University. Before joining Deakin University, he was Post-doctoral Research Fellow at IBM Research and Development Australia. His research interests include data processing, mobile social networks, fog computing, and network security. He has over 80 publications, including patents, monographs, book chapters, and journal and conference papers. Some of his publications have been published in the top venues, such as IEEE TMC, IEEE IoT, IEEE TDSC, and IEEE TVT. He received the 2012 Chinese Government Award for Outstanding Students Abroad (Ranked No.1 in Victoria and Tasmania consular districts). Dr. Gao is Senior Member of IEEE and is active in IEEE Communication Society. He has served as TPC Co-Chair, Publicity Co-Chair, Organization Chair, and TPC Member for many international conferences.

 

Professor Shui Yu is currently Full Professor of School of Computer Science, University of Technology Sydney, Australia. Dr. Yu's research interest includes security and privacy, networking, big data, and mathematical modelling. He has published two monographs and edited two books, more than 200 technical papers, including top journals and top conferences, such as IEEE TPDS, TC, TIFS, TMC, TKDE, TETC, ToN, and INFOCOM. Dr. Yu initiated the research field of networking for big data in 2013. Dr. Yu actively serves his research communities in various roles. He is currently serving the editorial boards of IEEE Communications Surveys and Tutorials, IEEE Communications Magazine, IEEE Internet of Things Journal, IEEE Communications Letters, IEEE Access, and IEEE Transactions on Computational Social Systems. He has served many international conferences as Member of organizing committee, such as Publication Chair for IEEE Globecom 2015, IEEE INFOCOM 2016 and 2017, TPC Chair for IEEE BigDataService 2015, and General Chair for ACSW 2017. Dr Yu is Final Voting Member for a few NSF China programs in 2017. He is Senior Member of IEEE, Member of AAAS and ACM, Vice Chair of Technical Committee on Big Data of IEEE Communication Society, and Distinguished Lecturer of IEEE Communication Society.

 

Professor Yong Xiang received the Ph.D. degree in electrical and electronic engineering from the University of Melbourne, Australia. He is currently Professor and Director of the Artificial Intelligence and Image Processing Research Cluster with the School of Information Technology, Deakin University, Australia. His research interests include information security and privacy, multimedia (speech/image/video) processing, wireless sensor networks, massive MIMO, and bio-medical signal processing. He has authored more than 110 refereed journal and conference papers in these areas. He is Associate Editor of the IEEE SIGNAL PROCESSING LETTERS and the IEEE ACCESS. He has served as Program Chair, TPC Chair, Symposium Chair, and Session Chair for a number of international conferences.



This book aims to sort out the clear logic of the development of machine learning-driven privacy preservation in IoTs, including the advantages and disadvantages, as well as the future directions in this under-explored domain. In big data era, an increasingly massive volume of data is generated and transmitted in Internet of Things (IoTs), which poses great threats to privacy protection. Motivated by this, an emerging research topic, machine learning-driven privacy preservation, is fast booming to address various and diverse demands of IoTs. However, there is no existing literature discussion on this topic in a systematically manner.The issues of existing privacy protection methods (differential privacy, clustering, anonymity, etc.) for IoTs, such as low data utility, high communication overload, and unbalanced trade-off, are identified to the necessity of machine learning-driven privacy preservation. Besides, the leading and emerging attacks pose further threats to privacy protection in this scenario. To mitigate the negative impact, machine learning-driven privacy preservation methods for IoTs are discussed in detail on both the advantages and flaws, which is followed by potentially promising research directions.Readers may trace timely contributions on machine learning-driven privacy preservation in IoTs. The advances cover different applications, such as cyber-physical systems, fog computing, and location-based services. This book will be of interest to forthcoming scientists, policymakers, researchers, and postgraduates.
Erscheint lt. Verlag 27.4.2022
Reihe/Serie SpringerBriefs in Computer Science
SpringerBriefs in Computer Science
Zusatzinfo XI, 119 p. 39 illus., 36 illus. in color.
Sprache englisch
Themenwelt Informatik Datenbanken Data Warehouse / Data Mining
Informatik Netzwerke Sicherheit / Firewall
Informatik Theorie / Studium Künstliche Intelligenz / Robotik
Technik Elektrotechnik / Energietechnik
Schlagworte Blockchain • Data Sharing • internet of things • machine learning • Privacy Protection
ISBN-10 981-19-1797-3 / 9811917973
ISBN-13 978-981-19-1797-4 / 9789811917974
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