The service delivery has lately witnessed strides in the form of paradigm shifts from conventional logistics to drone‐oriented supply chain to conserve ecosystem. The use of drones or unmanned aerial vehicles (UAVs) for package deliveries offer enhanced accessibility, flexibility, efficiency, speed, safety, and even few environmental gains. However, the drones can come across various security hazards while communicating with ground installations on open channels including physical capture attack, privacy infringement, and so on. Thus, earnest endeavors are needed to fix those security challenges in applications related to drone communications. To address these problems, an efficient authenticated key agreement technique, drone access control scheme for last mile delivery (DAC‐MD) is suggested for user‐drone interactions in IoD environment that help the participating entities in developing a mutually agreed session key for securing subsequent communication interactions. The proposed scheme is proved using automated ProVerif tool as well as analyzed by using formal analysis based on RoR random oracle model. The comparative analysis against recently presented known studies reveals that our scheme not only carries comparable properties in terms of security and privacy, but also low computational and communication costs.

中文翻译：

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DAC-MD：最后一英里交付的隐私保护无人机访问控制方案

最近，服务交付见证了从传统物流到无人机导向的供应链以保护生态系统的范式转变的形式取得的进展。使用无人机或无人驾驶飞行器 (UAV) 进行包裹递送可提高可达性、灵活性、效率、速度、安全性，甚至对环境没有任何好处。然而，无人机在开放通道上与地面设施通信时可能会遇到各种安全隐患，包括物理捕获攻击、隐私侵犯等。因此，需要认真努力解决与无人机通信相关的应用中的这些安全挑战。为了解决这些问题，建议采用一种有效的身份验证密钥协商技术，即最后一英里交付的无人机访问控制方案（DAC-MD），用于 IoD 环境中的用户与无人机交互，帮助参与实体开发共同商定的会话密钥，以确保后续的安全。沟通互动。使用自动化ProVerif工具证明了所提出的方案，并使用基于RoR随机预言模型的形式分析进行了分析。与最近提出的已知研究的比较分析表明，我们的方案不仅在安全性和隐私方面具有可比较的特性，而且计算和通信成本较低。