Design and Testing of a Spherical Autonomous Underwater Vehicle for Shipwreck Interior Exploration

Eldred, Ross; Lussier, Johnathan; Pollman, Anthony

doi:10.3390/jmse9030320

Cited by 13 publications

(12 citation statements)

References 59 publications

(95 reference statements)

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“…Motivated by the high quality of StyleGAN [22,23], which performs exceptionally well on image editing and processing tasks. Based on the StyleGAN, Elad et al [12] presented an end-to-end training method for learning a mapping from images to StyleGAN latent codes to generate high-quality images. Chong et al [9] allowed StyleGAN to directly start various tasks through pre-training and a little operation on the latent space.…”

Section: Related Workmentioning

confidence: 99%

See 1 more Smart Citation

Underwater Light Field Retention : Neural Rendering for Underwater Imaging

Tian¹,

Chen²,

Liu³

et al. 2022

Preprint

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Underwater Image Rendering aims to generate a true-tolife underwater image from a given clean one, which could be applied to various practical applications such as underwater image enhancement, camera filter, and virtual gaming. We explore two less-touched but challenging problems in underwater image rendering, namely, i) how to render diverse underwater scenes by a single neural network? ii) how to adaptively learn the underwater light fields from natural exemplars, i,e., realistic underwater images? To this end, we propose a neural rendering method for underwater imaging, dubbed UWNR (Underwater Neural Rendering). Specifically, UWNR is a data-driven neural network that implicitly learns the natural degenerated model from authentic underwater images, avoiding introducing erroneous biases by hand-craft imaging models.Compared with existing underwater image generation methods, UWNR utilizes the natural light field to simulate the main characteristics of the underwater scene. Thus, it is able to synthesize a wide variety of underwater images from one clean image with various realistic underwater images.Extensive experiments demonstrate that our approach achieves better visual effects and quantitative metrics over previous methods. Moreover, we adopt UWNR to build an open Large Neural Rendering Underwater Dataset containing various types of water quality, dubbed LNRUD.

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Section: Related Workmentioning

confidence: 99%

“…The underwater environment and resource has been gradually developed and explored in the last decade [6,14,24,12,21]. Unlike the terrestrial environment, it is hard for us to obtain satisfactory paired underwater datasets, limiting the development of many underwater vision tasks.…”

Section: Introductionmentioning

confidence: 99%

Underwater Light Field Retention : Neural Rendering for Underwater Imaging

Tian¹,

Chen²,

Liu³

et al. 2022

Preprint

View full text Add to dashboard Cite

show abstract

“…Similarly, Ross et al [55] also built an underwater oil and gas pipeline monitoring system, which is required for the monitoring of an actuator mechanism. The various military and security applications utilize event-driven data models such as performing port and harbor control and monitoring, sea mine identification, border security from unauthorized battleships or submarines, and decentralized situational surveillance, military, and defense applications, which employ a mix of underwater sensors to look for possible threats early [56,57].…”

Section: Underwater Wsnsmentioning

confidence: 99%

Recent Advancement of Data-Driven Models in Wireless Sensor Networks: A Survey

et al. 2021

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Wireless sensor networks (WSNs) are considered producers of large amounts of rich data. Four types of data-driven models that correspond with various applications are identified as WSNs: query-driven, event-driven, time-driven, and hybrid-driven. The aim of the classification of data-driven models is to get real-time applications of specific data. Many challenges occur during data collection. Therefore, the main objective of these data-driven models is to save the WSN’s energy for processing and functioning during the data collection of any application. In this survey article, the recent advancement of data-driven models and application types for WSNs is presented in detail. Each type of WSN is elaborated with the help of its routing protocols, related applications, and issues. Furthermore, each data model is described in detail according to current studies. The open issues of each data model are highlighted with their challenges in order to encourage and give directions for further recommendation.

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“…In recent decades, an increasing number of outdoor autonomous robots have been developed to release humans from high-risk operations in complex environments [1]. Most of the studies have focused on designing climbing mechanisms and studying adhesion methods to move on the surfaces of various structures, but have neglected the manipulation functions of robots; therefore, the potential applications of existing outdoor robots are limited to surveillance and inspection [2][3][4][5][6][7]. For example, Huang et al [3] proposed a tracked climbing robot for ship inspection in shipbuilding.…”

Section: Introductionmentioning

confidence: 99%

“…Muthugala et al designed an adhesion-aware façade cleaning Robot [5] and developed a self-organizing fuzzy logic classifier for benchmarking Robot-Aided blasting of ship hulls [6]. Eldred et al [7] designed a novel, spherical unmanned underwater vehicle prototype for operations within confined, entanglement-prone marine environments. To perform complex maintenance operations on railway bridges, we have combined a redundant manipulator with a biped climbing mobile platform to devise a robot named CMBOT [8].…”

Section: Introductionmentioning

confidence: 99%

Motion Planning for Vibration Reduction of a Railway Bridge Maintenance Robot with a Redundant Manipulator

Chang

Wang

et al. 2021

Electronics

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Motivated by the potential applications of maintenance and inspection tasks for railway bridges, we have developed a biped climbing robot. The biped climbing robot can climb on the steel guardrail of the railway bridge with two electromagnetic feet and implement the maintenance and inspection tasks by a redundant manipulator with 7 degrees of freedom. To reduce the vibration of the manipulator caused by the low rigidity of the guardrail and the discontinuous trajectories of joints, a motion planning algorithm for vibration reduction is proposed in this paper. A geometric path accounting for obstacle avoidance and the manipulator’s center of gravity is determined by the gradient projection method with a singularity-robust inverse. Then, a piecewise quintic polynomial S shape curve with a smooth jerk (derivative of joint angular acceleration) profile is used to interpolate the sequence of joint angular position knots that are transformed from the via-points in the obstacle-avoidance path. The parameters of the quintic polynomial S-curve are determined by a nonlinear programming problem in which the objective function is to minimize the maximus of the torque exerted by the manipulator on the guardrail throughout the jerk-continuous trajectory. Finally, a series of simulation experiments are conducted to validate the effectiveness of the proposed algorithm. The simulation results show that the tracking errors of the trajectory with the proposed optimization algorithm are significantly smaller than the tracking errors of the trajectory without optimization. The absolute values of mean deviation of the tracking errors of the three coordinate axes decreased by at least 48.3% compared to the trajectory without vibration-reduction in the triangle working path and linear working path trajectory following simulations. The analysis results prove that the proposed algorithm can effectively reduce the vibration of the end effector of the manipulator.

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Design and Testing of a Spherical Autonomous Underwater Vehicle for Shipwreck Interior Exploration

Cited by 13 publications

References 59 publications

Underwater Light Field Retention : Neural Rendering for Underwater Imaging

Underwater Light Field Retention : Neural Rendering for Underwater Imaging

Recent Advancement of Data-Driven Models in Wireless Sensor Networks: A Survey

Motion Planning for Vibration Reduction of a Railway Bridge Maintenance Robot with a Redundant Manipulator

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