Blockchain-Enabled Federated Learning for UAV Edge Computing Network: Issues and Solutions
Ieee Access
; 10:56591-56610, 2022.
Article
in English
| Web of Science | ID: covidwho-1895881
ABSTRACT
Unmanned aerial vehicles (UAVs) extend the traditional ground-based Internet of Things (IoT) into the air. UAV mobile edge computing (MEC) architectures have been proposed by integrating UAVs into MEC networks during the current novel coronavirus disease (COVID-19) era. UAV mobile edge computing (MEC) shares personal data with external parties (such as edge servers) during intelligent medical analytics. However, this technique raises privacy concerns about patients' health data. More recently, the concept of federal learning (FL) has been set up to protect mobile user data privacy. Compared to traditional machine learning, federated learning requires a decentralized distribution system to enhance trust for UAVs. Blockchain technology provides a secure and reliable solution for FL settings between multiple untrusted parties with anonymous, immutable, and distributed features. Therefore, blockchain-enabled FL provides both theories and techniques to improve the performance of intelligent UAV edge computing networks from various perspectives. This survey begins by discussing the current state of research on blockchain and FL. Then, compare the leading technologies and limitations. Second, we will discuss how to integrate blockchain and FL into UAV edge computing networks and the associated challenges and solutions. Finally, we discuss the fundamental research challenges and future directions.
Autonomous aerial vehicles; Blockchains; Security; Computer; architecture; Privacy; Multi-access edge computing; Collaborative work; Unmanned aerial vehicles; mobile edge computing; federated learning; blockchain; privacy; supported internet; 5g networks; secure; challenges; privacy; things; optimization; mechanism; framework; design; Computer Science; Engineering; Telecommunications
Full text:
Available
Collection:
Databases of international organizations
Database:
Web of Science
Language:
English
Journal:
Ieee Access
Year:
2022
Document Type:
Article
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