Abstract
Building an ad-hoc network in emergency situations can be crucial as a primary tool or even when used prior to subsequent operations. The use of mini and micro Unmanned Aerial Vehicles (UAVs) is increasing because of the wide range of possibilities they offer. Moreover, they have been proven to bring sustainability to many applications, such as agriculture, deforestation and wildlife conservation, among others. Therefore, creating a UAV network for an unknown environment is an important task and an active research field. In this article, a mobility model for the creation of ad-hoc networks using UAVs will be presented. This model will be based on pheromones for robust navigation. We will focus mainly on developing energy-efficient behavior, which is essential for this type of vehicle. Although there are in the literature several models of mobility for ad-hoc network creation, we find that either they are not adapted to the specific energy requirements of UAVs or the proposed motion models are unrealistic or not sufficiently robust for final implantation. We will present and analyze the operation of a distributed swarm behavior able to create an ad-hoc network. Then, an analytical model of the swarm energy consumption will be proposed. This model will provide a mechanism to effectively predict the energy consumption needed for the deployment of the network prior to its implementation. Determining the use of the mobility behavior is a requirement to establish and maintain a communication channel for the required time. Finally, this analytical model will be experimentally validated and compared to the Random Waypoint (RWP) mobility strategy.
Highlights
Swarm robotics is an approach to collective robotics that takes inspiration from the self-organized behaviors of social animals
We have found in the literature several models of mobility for the creation of ad-hoc networks [4,5,7], they are not adapted to the energy needs of Unmanned Aerial Vehicles (UAVs) or their motion models are unrealistic
If we compare the energy consumption of Random Waypoint (RWP), the most common alternative for mobility strategies, we found that its energy requirements are much higher than our approximation, and it is not well suited for UAVs
Summary
Swarm robotics is an approach to collective robotics that takes inspiration from the self-organized behaviors of social animals. Through simple rules and local interactions, swarm robotics aims at designing robust, scalable and flexible collective behaviors for the coordination of large numbers of robots [1] This type of robotics is usually implemented using a great number of robots. When working in indoor environments, there could be situations (such as radio jamming, lack of energy or emergencies) where no internal or external signal for communication or localization—GPRS, WIFI, GPS, etc.—can be accessed In this case, it is essential to create an ad-hoc communication network [7]. A swarming behavior aimed at creating ad-hoc networks for UAV vehicles will be initially presented. This behavior will be based on pheromone communication for robust navigation. This analytical model will be experimentally validated and compared to the Random Waypoint (RWP) mobility strategy
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
