SyncGait: Robust Long-Distance Authentication for Drone Delivery via Implicit Gait Behaviors

TL;DR

SyncGait is a novel implicit gait-based authentication system for drone delivery that ensures secure, long-distance mutual authentication using users' arm swings, achieving high accuracy and attack resilience without extra hardware.

Contribution

The paper introduces SyncGait, a new gait-based authentication method that works at long distances and is resistant to spoofing, enhancing drone security without additional hardware.

Findings

Achieves 99.84% accuracy at distances over 18 meters.

Demonstrates strong resilience against spoofing attacks.

Validated on 14 datasets from 31 subjects.

Abstract

In recent years, drone delivery, which utilizes unmanned aerial vehicles (UAVs) for package delivery and pickup, has gradually emerged as a crucial method in logistics. Since delivery drones are expensive and may carry valuable packages, they must maintain a safe distance from individuals until user-drone mutual authentication is confirmed. Despite numerous authentication schemes being developed, existing solutions are limited in authentication distance and lack resilience against sophisticated attacks. To this end, we introduce SyncGait, an implicit gait-based mutual authentication system for drone delivery. SyncGait leverages the user's unique arm swing as he walks toward the drone to achieve mutual authentication without requiring additional hardware or specific authentication actions. We conducted extensive experiments on 14 datasets collected from 31 subjects. The results demonstrate that SyncGait achieves an average accuracy of 99.84\% at a long distance ($>18m$) and exhibits strong resilience against various spoofing attacks, making it a robust, secure, and user-friendly solution in real-world scenarios.