Journal ArticleDOI
Comparison of Parallel Genetic Algorithm and Particle Swarm Optimization for Real-Time UAV Path Planning
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TLDR
By using a parallel implementation on standard multicore CPUs, real-time path planning for UAVs is possible and a rigorous comparison of the two algorithms shows, with statistical significance, that the GA produces superior trajectories to the PSO.Abstract:
The development of autonomous unmanned aerial vehicles (UAVs) is of high interest to many governmental and military organizations around the world. An essential aspect of UAV autonomy is the ability for automatic path planning. In this paper, we use the genetic algorithm (GA) and the particle swarm optimization algorithm (PSO) to cope with the complexity of the problem and compute feasible and quasi-optimal trajectories for fixed wing UAVs in a complex 3D environment, while considering the dynamic properties of the vehicle. The characteristics of the optimal path are represented in the form of a multiobjective cost function that we developed. The paths produced are composed of line segments, circular arcs and vertical helices. We reduce the execution time of our solutions by using the “single-program, multiple-data” parallel programming paradigm and we achieve real-time performance on standard commercial off-the-shelf multicore CPUs. After achieving a quasi-linear speedup of 7.3 on 8 cores and an execution time of 10 s for both algorithms, we conclude that by using a parallel implementation on standard multicore CPUs, real-time path planning for UAVs is possible. Moreover, our rigorous comparison of the two algorithms shows, with statistical significance, that the GA produces superior trajectories to the PSO.read more
Citations
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Proceedings ArticleDOI
Trajectory generation for a fixed-wing UAV by the potential field method
TL;DR: In this article, an online 3D trajectory generation based Artificial Potential Field (APF) method for fixed-wing UAVs is proposed, which uses a simplified dynamic model in order to ensure the feasibility of the generated trajectory by the real UAV.
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Parametric Design and Optimization of the Profile of Autonomous Underwater Helicopter Based on NURBS
Xinyu An,Ying Chen,Haocai Huang +2 more
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Real-Time Mission-Motion Planner for Multi-UUVs Cooperative Work Using Tri-Level Programing
TL;DR: In this paper , a mission-motion planner for unmanned underwater vehicles (UUVs) when dispatching them to visit a set of marine stations in a vast and time-varying environment is developed.
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Multicore Resource Isolation for Deterministic, Resilient and Secure Concurrent Execution of Safety-Critical Applications
TL;DR: This work proposes a novel multicore framework that constructs isolated clusters of cores for each concurrent application that guarantees concurrent applications with deterministic performance, as well as an efficient execution environment for resiliency and security.
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Review on Torque Distribution Scheme of Four-Wheel In-Wheel Motor Electric Vehicle
TL;DR: In this paper , the authors focus on the design of the torque distribution scheme of the in-wheel motor by experts and scholars in the past, such as the use of genetic algorithm, BP neural network, particle swarm algorithm, and fuzzy control algorithm to distribute the torque.
References
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A new vibrational genetic algorithm enhanced with a Voronoi diagram for path planning of autonomous UAV
TL;DR: A new optimization algorithm called multi-frequency vibrational genetic algorithm (mVGA) that can be used to solve the path planning problems of autonomous unmanned aerial vehicles (UAVs) is significantly improved.