SMART NEtworks and ServiceS for 2030 (SMARTNESS 2030)
Published October 8, 2025 | Version v1
Conference paper Open

Modeling Drone Deliveries Using Petri Nets: An Evaluation on Collision Recovery and Energy Efficiency

Authors/Creators

Description

The growing adoption of drones for goods delivery has emerged as a potentially viable solution. By operating through aerial routes, drones significantly reduce delivery times and expand operational reach. However, covering large areas requires prolonged flights, leading to high battery consumption and an increased risk of collisions, particularly in densely populated regions. This study presents a Stochastic Petri Net model to evaluate drone performance, focusing on metrics such as utilization, delivery rate, mean mission time, and drop probability. Additionally, energy consumption and carbon footprint metrics were investigated to assess the environmental impact of drone operations. The model incorporates factors such as strategic recharging points and collision probability, providing insights into drone performance under high-demand scenarios.

Files

RC3.C32 (2).pdf

Files (4.9 MB)

Name Size Download all
md5:41784cc2b1a66c0f9053a7b22f2b855b
4.9 MB Preview Download

Additional details

Funding

Fundação de Amparo à Pesquisa do Estado de São Paulo
SMART NEtworks and ServiceS for 2030 (SMARTNESS) 2021/00199-8