Abstract
Power consumption in wireless sensor networks is high, and the lifetime of a battery has become a bottleneck, restricting network performance. Wireless power transfer with a ground mobile charger is vulnerable to interference from the terrain and other factors, and hence it is difficult to deploy in practice. Accordingly, a novel paradigm is adopted where a multi-UAV (unmanned aerial vehicle) with batteries can transfer power and information to SDs (sensor devices) in a large-scale sensor network. However, there are discrete events, continuous process, time delay, and decisions in such a complicated system. From the perspective of a hybrid system, a hybrid colored cyber Petri net system is proposed here to depict and analyze this problem. Furthermore, the energy utilization rate and information collection time delay are conflict with each other; therefore, UAV-aided wireless power and information transfer is formulated as a multi-objective optimization problem. For this reason, the MAC-NSGA II (multiple ant colony-nondominated sorting genetic algorithm II) is proposed in this work. Firstly, the optimal trajectory of multiple UAVs was obtained, and on this basis, the above two objectives were optimized simultaneously. Large-scale simulation results show that the proposed algorithm is superior to NSGA II and MOEA/D in terms of energy efficiency and information collection delay.
Highlights
We extended it to be suitable for describing wireless power transmission
In order to character the state and behavior of multi-UAV aided wireless power and information transfer, we propose a hybrid colored cyber Petri net system, and the definition is as follows
The hybrid colored cyber Petri net system (HCCPNS) was proposed for the first time and applied for the modelling and analysis of a multi-UAV aided wireless power and information transfer system
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. Based on the above analysis, this paper constructs a multi-objective optimization for multi-UAV aided power and information transmission in order to maximize the energy utilization of the UAVs and minimize the time delay of information collection. The main contributions of the article are concentrated in the following three aspects: The HCCPNS (hybrid colored cyber Petri net system) is proposed for the first time to model the multi-UAV aided wireless power and information transfer system. The MAC-NSGA II is proposed in order to optimize the energy utilization and average delay of information simultaneously based on the optimal trajectory of multiple UAVs. Numerical simulation results demonstrate that the proposed algorithm has excellent performance, especially for large scale networks.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
