3D Path Planning for the Ground Robot with Improved Ant Colony Optimization

Wang, Lanfei; Kan, Jiangming; Guo, Jun; Wang, Chao

doi:10.3390/s19040815

Cited by 42 publications

(22 citation statements)

References 44 publications

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“…In Table 6, additional information from previous research related to PSO is shown. Ant colony optimization (ACO) is usually studied under varying network environments, such as grid network and Voronoi diagram [107][108][109][110][111][112][113][114][115][116][117][118][119]. Few papers, likewise, researched GA with ACO and coordinate system [120].…”

Section: Refmentioning

confidence: 99%

A Performance Review of Collision-Free Path Planning Algorithms

Shin

Chae

2020

Electronics

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Path planning for mobile agents is one of the areas that has drawn the attention of researchers’, as evidenced in the large number of papers related to the collision-free path planning (CFPP) algorithm. The purpose of this paper is to review the findings of those CFPP papers and the methodologies used to generate possible solutions for CFPP for mobile agents. This survey shows that the previous CFPP papers can be divided based on four characteristics. The performance of each method primarily used to solve CFPP in previous research is evaluated and compared. Several methods are implemented and tested in same computing environment to compare the performance of generating solution in specified spatial environment with different obstacles or size. The strengths and weakness of each methodology for CFPP are shown through this survey. Ideally, this paper will provide reference for new future research.

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Section: Refmentioning

confidence: 99%

A Performance Review of Collision-Free Path Planning Algorithms

Shin

Chae

2020

Electronics

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“…ACO-based coordinated path planning for multi-UAV networks under threat conditions is discussed in [ 42 ]. Three-dimensional path planning for robots to avoid local maxima is elaborated in [ 43 ]. Parallel genetic algorithm-based multi-UAV path and trajectory is discussed in [ 44 ].…”

Section: Related Workmentioning

confidence: 99%

Efficient Deployment with Throughput Maximization for UAVs Communication Networks

Sayeed

Kumar

Sharma

et al. 2020

Sensors

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The article presents a throughput maximization approach for UAV assisted ground networks. Throughput maximization involves minimizing delay and packet loss through UAV trajectory optimization, reinforcing the congested nodes and transmission channels. The aggressive reinforcement policy is achieved by characterizing nodes, links, and overall topology through delay, loss, throughput, and distance. A position-aware graph neural network (GNN) is used for characterization, prediction, and dynamic UAV trajectory enhancement. To establish correctness, the proposed approach is validated against optimized link state routing (OLSR) driven UAV assisted ground networks. The proposed approach considerably outperforms the classical approach by demonstrating significant gains in throughput and packet delivery ratio with notable decrements in delay and packet loss. The performance analysis of the proposed approach against software-defined UAVs (U-S) and UAVs as base stations (U-B) verifies the consistency and gains in average throughput while minimizing delay and packet loss. The scalability test of the proposed approach is performed by varying data rates and the number of UAVs.

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“…Map representation is a cartographic method to express the geographical height, topography and surface features on the plane in various ways by means of graphics with the aid of natural language. Extensive research has implemented a variety of 3D environment modeling map representation methods, including digital point cloud method [23], [24], triangular grid map method [25], [26], traditional node map method [27], [28], and square grid map method [29]- [31] and so on. The square grid method is a kind of map representation method with grid as cartographic unit, which reflects the characteristics of cartographic objects.…”

Section: D Coarse-fine Scale Map Model and Coarse Scale Optimal mentioning

confidence: 99%

A Multi-Scale Map Method Based on Bioinspired Neural Network Algorithm for Robot Path Planning

2019

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With the wide application of Bioinspired Neural Network in the field of robot path planning, the environmental scale of robot path planning is getting larger, and the environmental resolution requirements are getting higher. However, with the increase of the environment size and resolution requirement, the neuronal activity value calculation cost and the time cost of the Bioinspired Neural Network will increase sharply. Aiming at this problem, this paper proposes an improved Bioinspired Neural Network path planning method based on Scaling Terrain. Using a Multi-Scale Map method and Dijkstra algorithm, the optimal path of a Coarse Scale Map is calculated. The optimal path obtained from the Coarse Scale Map is used to guide the neural network planning weights of the Fine Scale Map from the same terrain. Thus, the optimal path of the Fine Scale Map can be calculated by the improved BNN algorithm. Introducing this Multi-Scale Map Method into the Bioinspired Neural Network can greatly reduce the time cost of the Bioinspired Neural Network path planning algorithm and reduce the mathematical complexity. Simulation results in some computer integrated virtual environments further demonstrate the superiority of this method and the experimental results are encouraging.INDEX TERMS Multi-scale map method, path planning, bioinspired neural network, Dijkstra algorithm.

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3D Path Planning for the Ground Robot with Improved Ant Colony Optimization

Cited by 42 publications

References 44 publications

A Performance Review of Collision-Free Path Planning Algorithms

A Performance Review of Collision-Free Path Planning Algorithms

Efficient Deployment with Throughput Maximization for UAVs Communication Networks

A Multi-Scale Map Method Based on Bioinspired Neural Network Algorithm for Robot Path Planning

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