Region-Searching of Multiple Autonomous Underwater Vehicles: A Distributed Cooperative Path-Maneuvering Control Approach

Chen, Tao; Qu, Xingru; Zhang, Zhao; Liang, Xiao

doi:10.3390/jmse9040355

Cited by 3 publications

(3 citation statements)

References 48 publications

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“…Therefore, multi-AUV collaboration, information sharing, and joint mission accomplishment have become the new direction of AUV development today. Multi-AUV collaboration can accomplish difficult tasks faster and better for single AUVs, especially in data acquisition [4], target search [5][6][7] and path planning [8,9], etc. Therefore, multi-AUV collaborative operation is the future development trend of AUVs to deal with complex problems in complex environments.…”

Section: Introductionmentioning

confidence: 99%

Multi-AUV Formation Predictive Control Based on CNN-LSTM under Communication Constraints

Tian

Zhang

et al. 2023

JMSE

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For the problem of hydroacoustic communication constraints in multi-AUV leader follower formation, this paper designs a formation control method combining CNN-LSTM prediction and backstepping sliding mode control. First, a feedback linearization method is used to transform the AUV nonlinear model into a second-order integral model; then, the influence of hydroacoustic communication constraints on the multi-AUV formation control problem is analyzed, and a sliding window-based formation prediction control strategy is designed; for the characteristics of AUV motion trajectory with certain temporal order, the CNN-LSTM prediction model is selected to predict the trajectory state of the leader follower and compensate the effect of communication delay on formation control, and combine the backstepping method and sliding mode control to design the formation controller. Finally, the simulation experimental results show that the proposed CNN-LSTM prediction and backstepping sliding mode control can improve the effect of hydroacoustic communication constraints on formation control.

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Section: Introductionmentioning

confidence: 99%

Multi-AUV Formation Predictive Control Based on CNN-LSTM under Communication Constraints

Tian

Zhang

et al. 2023

JMSE

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“…The existence of fish and glaciers in the marine environment make it difficult for AUVs to carry out underwater unmanned operation, while an AUV's own energy consumption and communication restriction also limit the efficiency of underwater missions. Research on how to realize the target search and complete the corresponding tasks scientifically and efficiently in the complex 3D environment has been gaining popularity among scholars [3][4][5].…”

Section: Introductionmentioning

confidence: 99%

Improved RRT Algorithm for AUV Target Search in Unknown 3D Environment

Chen

et al. 2022

JMSE

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Due to the complexity of the marine environment, underwater target search and interception is one of the biggest problems faced by an autonomous underwater vehicle (AUV). At present, there is quite a lot of research in terms of the two-dimensional environment. This paper proposes an improved rapidly exploring random trees (RRT) algorithm to solve the problem of target search and interception in an unknown three-dimensional (3D) environment. The RRT algorithm is combined with rolling planning and node screening to realize path planning in an unknown environment, and then the improved RRT algorithm is applied to the search and interception process in a 3D environment. Combined with the search decision function and the three-point numerical differential prediction method, the RRT algorithm can search for and effectively intercept the target. Numerical simulations in various situations show the superior performance, in terms of time and accuracy, of the proposed approach.

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“…With exploration and research in some underwater fields, such as oceans, lakes, and rivers, the application of underwater detection is more extensive, and the requirements for the quality of the captured images are much higher. However, due to the attenuation characteristics of light propagation in the water, as well as the absorption and scattering effects of particles and impurities in water, the underwater images can be impacted by serious degradation effects, such as atomization, low contrast, noise, blur, and color distortion, which limits their applications in follow-up image processing tasks (such as image recognition and target detection) [1][2][3]. Therefore, the use of image processing technology to improve the quality of underwater degraded images has become a research focus in recent years.…”

Section: Introductionmentioning

confidence: 99%

Underwater Image Restoration via Non-Convex Non-Smooth Variation and Thermal Exchange Optimization

Jiao

Liu

et al. 2021

JMSE

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The quality of underwater images is an important problem for resource detection. However, the light scattering and plankton in water can impact the quality of underwater images. In this paper, a novel underwater image restoration based on non-convex, non-smooth variation and thermal exchange optimization is proposed. Firstly, the underwater dark channel prior is used to estimate the rough transmission map. Secondly, the rough transmission map is refined by the proposed adaptive non-convex non-smooth variation. Then, Thermal Exchange Optimization is applied to compensate for the red channel of underwater images. Finally, the restored image can be estimated via the image formation model. The results show that the proposed algorithm can output high-quality images, according to qualitative and quantitative analysis.

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Region-Searching of Multiple Autonomous Underwater Vehicles: A Distributed Cooperative Path-Maneuvering Control Approach

Cited by 3 publications

References 48 publications

Multi-AUV Formation Predictive Control Based on CNN-LSTM under Communication Constraints

Multi-AUV Formation Predictive Control Based on CNN-LSTM under Communication Constraints

Improved RRT Algorithm for AUV Target Search in Unknown 3D Environment

Underwater Image Restoration via Non-Convex Non-Smooth Variation and Thermal Exchange Optimization

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