2016
DOI: 10.3901/cjme.2016.0317.032
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Dynamic analysis of propulsion mechanism directly driven by wave energy for marine mobile buoy

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Cited by 14 publications
(9 citation statements)
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“…The numerical model, which neglects the pitch motion and assumes the heave motion follows a sinusoidal wave profile, was found to show reasonable agreement with the experimental results [22]. Yu et al [20] modeled the forward speed of a floating mobile buoy with a submerged foil, assuming a known heave motion, showing that the forward speed increases with the buoy heave motion. Furthermore, Liu et al [19] compared the experimental results from a prototype Waveglider system to CFD simulations, finding good agreement; whereas Tian et al [21] presented a Lagrangian approach to model the dynamics of a heave-driven system.…”
Section: Literature Reviewmentioning
confidence: 56%
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“…The numerical model, which neglects the pitch motion and assumes the heave motion follows a sinusoidal wave profile, was found to show reasonable agreement with the experimental results [22]. Yu et al [20] modeled the forward speed of a floating mobile buoy with a submerged foil, assuming a known heave motion, showing that the forward speed increases with the buoy heave motion. Furthermore, Liu et al [19] compared the experimental results from a prototype Waveglider system to CFD simulations, finding good agreement; whereas Tian et al [21] presented a Lagrangian approach to model the dynamics of a heave-driven system.…”
Section: Literature Reviewmentioning
confidence: 56%
“…Previous efforts have involved methods based on assuming the forward speed and adjusting the forward speed based on the apparent thrust [27] and an empirical solution specific to a particular hull shape [13]. More recently, a method has been derived by significantly simplifying the vessel motions and neglecting the wave-induced surge force [20]. In addition, several methods have been implemented for fixed speed numerical solutions including [28]- [30].…”
Section: Literature Reviewmentioning
confidence: 99%
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“…The increasing demand for underwater exploration and development, water detection, and other works in the scientific and military fields [1] has led to the rapid development of bionic underwater robots [2]. These robots mimic animal locomotion mechanisms, such as biological motion and musculoskeletal characteristics, which have been the focus of several studies [3,4].…”
Section: Introductionmentioning
confidence: 99%
“…Autonomous underwater glider [1][2][3] (AUG) is a type of autonomous underwater vehicle (AUV), which is distinguished from scientists by its unique gliding mode. AUG shows more competitiveness than other unmanned vehicles (e.g., typical AUVs [4], ROVs [5], and Mobile Buoy [6,7]) in ocean observing and monitoring tasks due to its high endurance and low cost. On the basis of traditional AUG, the hybrid underwater glider [8][9][10][11][12] (HUG) is developed with the combination of AUG's gliding motion and AUV's propulsion motion, and thus has more advantages in maneuverability and adaptation under severe ocean conditions.…”
Section: Introductionmentioning
confidence: 99%