Privacy-Preserving Live Video Analytics for Drones via Edge Computing

Piyush Nagasubramaniam; Chen Wu; Yuanyi Sun; Neeraj Karamchandani; Sencun Zhu; Yongzhong He

doi:10.3390/app142210254

Privacy-Preserving Live Video Analytics for Drones via Edge Computing

Piyush Nagasubramaniam, Chen Wu, Yuanyi Sun, Neeraj Karamchandani, Sencun Zhu, Yongzhong He

Computer Science and Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

The use of lightweight drones has surged in recent years across both personal and commercial applications, necessitating the ability to conduct live video analytics on drones with limited computational resources. While edge computing offers a solution to the throughput bottleneck, it also opens the door to potential privacy invasions by exposing sensitive visual data to risks. In this work, we present a lightweight, privacy-preserving framework designed for real-time video analytics. By integrating a novel split-model architecture tailored for distributed deep learning through edge computing, our approach strikes a balance between operational efficiency and privacy. We provide comprehensive evaluations on privacy, object detection, latency, bandwidth usage, and object-tracking performance for our proposed privacy-preserving model.

Original language	English (US)
Article number	10254
Journal	Applied Sciences (Switzerland)
Volume	14
Issue number	22
DOIs	https://doi.org/10.3390/app142210254
State	Published - Nov 2024

All Science Journal Classification (ASJC) codes

General Materials Science
Instrumentation
General Engineering
Process Chemistry and Technology
Computer Science Applications
Fluid Flow and Transfer Processes

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10.3390/app142210254

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abstract = "The use of lightweight drones has surged in recent years across both personal and commercial applications, necessitating the ability to conduct live video analytics on drones with limited computational resources. While edge computing offers a solution to the throughput bottleneck, it also opens the door to potential privacy invasions by exposing sensitive visual data to risks. In this work, we present a lightweight, privacy-preserving framework designed for real-time video analytics. By integrating a novel split-model architecture tailored for distributed deep learning through edge computing, our approach strikes a balance between operational efficiency and privacy. We provide comprehensive evaluations on privacy, object detection, latency, bandwidth usage, and object-tracking performance for our proposed privacy-preserving model.",

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AU - Sun, Yuanyi

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AU - Zhu, Sencun

AU - He, Yongzhong

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Privacy-Preserving Live Video Analytics for Drones via Edge Computing

Abstract

All Science Journal Classification (ASJC) codes

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