Dynamic modeling and motion simulation for a winged hybrid-driven underwater glider

Wang, Shuxin; Sun, Xiaoyun; Wang, Yanhui; Wu, Jiang; Wang, Xiaoming

doi:10.1007/s13344-011-0008-7

Cited by 106 publications

(21 citation statements)

References 4 publications

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“…The ALCEN company have developed a SeaExplorer glider that can operate in hybrid 'AUV/glider' mode if necessary . Designs of HDUG have also been reported by other researchers (Wang et al, 2011).…”

Section: Introductionmentioning

confidence: 79%

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Design and analysis of folding propulsion mechanism for hybrid-driven underwater gliders

Chen

Zhang

et al. 2016

Ocean Engineering

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Section: Introductionmentioning

confidence: 79%

“…In comparison, the autonomous underwater vehicles (AUVs) in common use today perform missions measured by days (Paull et al, 2013;Hyakudome et al, 2002). However, the speed of existing AUGs is lower than that of AUVs (Wang et al, 2011). Thus the slow speeds of AUGs present challenges for navigation in areas of strong current.…”

Section: Introductionmentioning

confidence: 99%

Design and analysis of folding propulsion mechanism for hybrid-driven underwater gliders

Chen

Zhang

et al. 2016

Ocean Engineering

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“…At present, thousands of underwater robots have been developed to satisfy the requirement of underwater tasks. The streamline shape is usually used in high speed underwater robots and the special shape is always used in remotely-operated vehicle (ROV) to carry out some real time underwater operations [1,2,3] . For a kind of special shape, spherical shape shows a good performance on water resistance and the spherical underwater robot is easy to realize 0 turning radius no matter in what motion state of the robot.…”

Section: Introductionmentioning

confidence: 99%

Brief Analysis of Underwater Movements of Spherical Robot

Wang¹

2017

dtetr

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Abstract. Underwater robot has become an important tool for people to understand, develop and utilize the ocean. At present, thousands of underwater robots have been developed to satisfy the requirement of underwater tasks and many researchers pay more attention on the underwater robots. This paper uses CFD to simulate the horizontal motion, downward motion and rotary motion of the spherical underwater robot to analyze the influence of spherical robot underwater structure on velocity and pressure, which provides the basic data of underwater motion of the robot and lays the foundation for optimizing the control method of the robot.

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“…AUGs have an excellent endurance up to a few months or more [12]. However, the autonomous underwater vehicles(AUVs)have endurance just several hours or few days [13] [14], and the speed up to several knots that is much faster than that of AUGs [15]. We know that the slow speeds of AUGs present challenges for navigation in areas of strong current.…”

Section: Introductionmentioning

confidence: 99%

Impact of folding propeller spinning position for the transit efficiency of a hybrid-driven underwater glider

Chen

Zhang

2016

OCEANS 2016 - Shanghai

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Abstract-A hybrid underwater glider(HDUG) is developed based on a folding propeller. The blades of the propeller can fold and unfold according to the motor work or not. When it stop spinning, the blades will come to a rest position. The hydrodynamic performance will vary with the position of the blades, thus the transit efficiency of the HDUG will also vary. So there must be an optimal transit efficiency for the propeller spinning position. Thus to investigate this problem, this paper presents a thorough approach characterizing the transit efficiency for different folding propeller spinning position of the HDUG. This paper employ first-principle analysis that concludes the effect of efficiency for spinning position of the blades. This result implies that the spinning position can effect the transit efficiency of a hybrid-driven underwater glider based on the mathematical model.

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Dynamic modeling and motion simulation for a winged hybrid-driven underwater glider

Cited by 106 publications

References 4 publications

Design and analysis of folding propulsion mechanism for hybrid-driven underwater gliders

Design and analysis of folding propulsion mechanism for hybrid-driven underwater gliders

Brief Analysis of Underwater Movements of Spherical Robot

Impact of folding propeller spinning position for the transit efficiency of a hybrid-driven underwater glider

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