A hybrid ant colony–particle swarm optimization method (ACOPSO) for aerospace propulsion systems

Piskin, Altug; Baklacıoğlu, Tolga; Turan, Önder

doi:10.1108/aeat-08-2021-0249

Cited by 3 publications

(1 citation statement)

References 15 publications

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“…For this reason, as in other fields, the methods specified in aviation are often preferred. [20][21][22][23][24][25][26][27][28][29][30] In this study, the modeling of dimensionless decay curves, which were developed using three experimental LIDAR datasets in the RECAT-EU project and is a useful tool to characterize the wake vortex circulation decay under RWC conditions, was carried out using cuckoo search algorithm (CSA). The decay curves used in the modeling are the median (P50), 10th (P10), and 90th (P90) percentile decay curves of the RWC tracks, which constitute the top 2% longest lasting wakes.…”

Section: Introductionmentioning

confidence: 99%

Characterization modeling of wake vortex circulation decay under reasonable worst case conditions with cuckoo search algorithm

Oruc,

Baklacioglu,

Sahin

2024

Proceedings of the Institution of Mechanical Engineers, Part G:

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Wake vortex (WV) produced by a large aircraft has the potential to cause serious damage to smaller aircraft following it. In this context, characterization of WV circulation decay under the reasonable worst case (RWC) conditions allows the separation minima to be found safely. In this study, modeling of dimensionless decay curves, which were developed using three experimental LIDAR (Light Detection and Ranging) datasets in the RECAT-EU project and is a useful tool to characterize the wake vortex circulation decay under RWC conditions, was carried out using cuckoo search algorithm (CSA). The decay curves used in the modeling are the median (P50), 10th (P10), and 90th (P90) percentile decay curves of the RWC tracks, which constitute the top 2% longest lasting wakes. The fact that the correlation coefficient (R) values are very close to 1 for all datasets as a result of the error analysis shows that the prediction success of the CSA model is quite high.

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Section: Introductionmentioning

confidence: 99%

Characterization modeling of wake vortex circulation decay under reasonable worst case conditions with cuckoo search algorithm

Oruc,

Baklacioglu,

Sahin

2024

Proceedings of the Institution of Mechanical Engineers, Part G:

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Design of an improved intelligent optimization logistics path planning model for the background of the new industrial era

Li,

Chai

2023

Journal of Industrial and Production Engineering

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Optimization method for collision avoidance paths of inland ships based on improved ant colony algorithm

2024

JCM

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With the rise of artificial intelligence, ships are gradually becoming intelligent. Ship path planning, as the foundation of ship intelligence, has become a current research hotspot. To achieve the planning of ship collision avoidance paths, a hybrid ant colony algorithm and artificial potential field for optimal safety path planning was proposed. The model makes up for the disadvantages of the slow convergence rate and the easy local optimum. At the same time, the ant colony algorithm in turn makes up for the poor global search ability of the artificial potential field method, so that the algorithm can achieve accurate path planning. The test results show that in a simple environment, the hybrid ant colony algorithm, improved tangent and Dijkstra algorithm, and improved fast extended random tree * algorithm iterated about 7, 25, and 40 times respectively before starting to converge; In complex environments, the improved tangent and Dijkstra algorithms do not converge, while the improved fast expanding random tree * algorithm and hybrid ant colony algorithm iterate about 40 and 8 times respectively to begin convergence. It is clear that the mixed ant colony algorithm converges fast and can obtain the optimal path in the shortest time. The number of unsafe path points for the optimal path in a simple environment is 6, 1, and 0, respectively, for the improved tangent and Dijkstra algorithm, the improved fast expanding random tree * algorithm, and the hybrid ant colony algorithm; The number of unsafe path points for the optimal path in a complex environment is 9, 3, and 0, respectively; It can be seen that the path planned by the hybrid ant colony algorithm has higher security. The above results show that the mixed ant colony algorithm can effectively shorten the search time of optimal paths while improving the security of pathways.

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A hybrid ant colony–particle swarm optimization method (ACOPSO) for aerospace propulsion systems

Cited by 3 publications

References 15 publications

Characterization modeling of wake vortex circulation decay under reasonable worst case conditions with cuckoo search algorithm

Characterization modeling of wake vortex circulation decay under reasonable worst case conditions with cuckoo search algorithm

Design of an improved intelligent optimization logistics path planning model for the background of the new industrial era

Optimization method for collision avoidance paths of inland ships based on improved ant colony algorithm

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