Abstract:
"The rise in demand for E-commerce has led to the emergence of increasingly complicated
difficulties in last-mile delivery. In addition, clients have an expectation for firms to enhance
their delivery speed while concurrently increasing the volume of orders placed. The primary
issues associated with future last-mile delivery pertain to the fulfillment of customer demand,
reduction of reliance on on-road vehicles, and establishment of adaptable transportation
networks. When contemplating delivery options, extensive research has been conducted on the
utilization of drones and traditional postal delivery systems. However, the authentication
procedures exhibit distinct variations from one another. The implementation of a smart city
infrastructure may give rise to concerns of security and compellability.
Hence, a proposed solution for addressing the problem involves the implementation of a secure
protocol for authentication of both drones and mailboxes. The selection and implementation of
elliptic curve cryptography as a protocol in limited IoT environments is driven by
advancements in cryptography and the efficiency of algorithm execution. This newly designed
and built protocol utilizes elliptic curve cryptography.
The examination of the testing outcomes demonstrated that the suggested protocol had the
capability to address the security concerns associated with the existing protocol. Furthermore,
it is capable of introducing a novel connectivity protocol between a Drone and a Mailbox
systems."