J.M. de la Cruz scite author profile

This paper presents a path planner for multiple unmanned aerial vehicles (UAVs) based on evolutionary algorithms (EAs) for realistic scenarios. The paths returned by the algorithm fulfill and optimize multiple criteria that 1) are calculated based on the properties of real UAVs, terrains, radars, and missiles and 2) are structured in different levels of priority according to the selected mission. The paths of all the UAVs are obtained with the multiple coordinated agents coevolution EA (MCACEA), which is a general framework that uses an EA per agent (i.e., UAV) that share their optimal solutions to coordinate the evolutions of the EAs populations using cooperation objectives. This planner works offline and online by means of recalculating parts of the original path to avoid unexpected risks while the UAV is flying. Its search space and computation time have been reduced using some special operators in the EAs. The successful results of the paths obtained in multiple scenarios, which are statistically analyzed in the paper, and tested against a simulator that incorporates complex models of the UAVs, radars, and missiles, make us believe that this planner could be used for real-flight missions.Index Terms-Aerial robotics, multiobjective evolutionary algorithms (EAs), path planning for multiple mobile robot systems. I. INTRODUCTIONU NMANNED aerial vehicles (UAVs) are aircrafts without onboard pilots that can be remotely controlled or can fly autonomously based on preprogrammed flight plans [1]. The autonomy level achieved by the UAVs depends on the methodology used to control the vehicle and to generate its routes. Although both tasks are equally important (and become especially Manuscript

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Modeling and simulation of a gas distribution pipeline network

Herrán-González

Cruz

Andrés-Toro

et al. 2009

Applied Mathematical Modelling

156

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This research study focuses on the modeling and simulation of a gas distribution pipeline network with a special emphasis on gas ducts. Gas ducts are the most important components of such kind of systems since they define the major dynamic characteristics. Isothermal, unidirectional flow is usually assumed when modeling the gas flow through a gas duct. This paper presents two simplified models derived from the set of partial differential equations governing the dynamics of the process. These models include the inclination term, neglected in most related papers. Moreover, two numerical schemes are presented for the integration of such models. Also, it is shown how the pressure drop along the pipe has a strong dependency with the inclination term. To solve the system dynamics through the proposed numerical schemes a based MATLAB-Simulink library was built. With this library it is possible to simulate the behavior of a gas distribution network from the individual simulation of each component. Finally, the library is tested through three application examples, and results are compared with the existing ones in the literature.

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Ant colony optimization for multi-UAV minimum time search in uncertain domains

Pérez-Carabaza

Besada-Portas

López-Orozco

et al. 2018

Applied Soft Computing

164

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J.M. de la Cruz

A wavelet-based image fusion tutorial

Measurements and Modeling of Distributed Antenna Systems in Railway Tunnels

Evolutionary Trajectory Planner for Multiple UAVs in Realistic Scenarios

Modeling and simulation of a gas distribution pipeline network

Ant colony optimization for multi-UAV minimum time search in uncertain domains

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