Research on Floating Object Ranging and Positioning Based on UAV Binocular System

The simulation of free-surface flow around moored or floating objects faces a series of challenges, concerning the flow modelling and the numerical solution method. One of the challenges is the simulation of objects whose dynamics is determined by a two-way interaction with the incoming waves. The ‘traditional’ way of numerically coupling the flow dynamics with the dynamics of a floating object becomes unstable (or requires severe underrelaxation) when the added mass is larger than the mass of the object. To deal with this two-way interaction, a more simultaneous type of numerical coupling is being developed. The paper will focus on this issue. To demonstrate the quasi-simultaneous method, a number of simulation results for engineering applications from the offshore industry will be presented, such as the motion of a moored TLP platform in extreme waves, and a free-fall life boat dropping into wavy water.

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GPU Based Real-time Floating Object Detection System

Proceedings of the 2nd International Conference on Electronics, Network and Computer Engineering (ICENCE 2016) ◽

10.2991/icence-16.2016.106 ◽

2016 ◽

Author(s):

Jie Yang ◽

Jian-min Meng

Keyword(s):

Object Detection ◽

Real Time ◽

Detection System ◽

Floating Object

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Adaptive RMRC for cooperative manipulation of a floating object by two free-based space robots

Proceedings. 1998 IEEE/RSJ International Conference on Intelligent Robots and Systems. Innovations in Theory, Practice and Applications (Cat. No.98CH36190) ◽

10.1109/iros.1998.724799 ◽

2002 ◽

Cited By ~ 2

Author(s):

S. Sagara ◽

M. Hideura ◽

R. Katoh ◽

T. Yamashita ◽

J. Kobayashi ◽

...

Keyword(s):

Space Robots ◽

Cooperative Manipulation ◽

Floating Object

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DP-Stability During Heavy Lift Operations Using a Modified Kalman Filter

Volume 1: Offshore Technology ◽

10.1115/omae2018-77901 ◽

2018 ◽

Cited By ~ 2

Author(s):

Eelco Harmsen ◽

Radboud van Dijk ◽

Petter Stuberg

Keyword(s):

Kalman Filter ◽

Dynamic Positioning ◽

Mooring System ◽

Engineering Analysis ◽

Single Object ◽

Joint Effort ◽

Wide Range ◽

Floating Object ◽

Heavy Lift ◽

Modified Kalman Filter

During heavy lift operations, staying on position using a Dynamic Positioning (DP) system offers many advantages compared with a mooring system. However, when the vessel is connected to another fixed or floating object during the lifting operation through its hoist wires it may experience instabilities in the DP-system. These DP-instabilities are caused by the inability of the DP system to handle the relatively stiff external spring of the hoist wire correctly. This phenomenon is well known and mitigating measures such as Heavy Lift Mode have been developed over the years that work well for stationary vessels. However, when two vessels are lifting a single object together (e.g. QUAD lift), existing solutions to prevent this DP-instability are insufficient, as the nature of such lift requires a synchronous move on DP. During studies to the fundamental behavior of a DP system during heavy lift operations it is found that modifications to the Kalman filter can prevent these DP-instabilities. Heerema Marine Contractors presented the DP-stability challenges to Kongsberg Maritime, and a joint effort resulted in an implementation of a modified Kalman filter in the Kongsberg Maritime DP system. Also a dedicated engineering analysis to predict risk of DP-instabilities for specific lift configurations has been developed. The modified DP-system is tested in large number of simulations (both desktop and a full mission simulator) to test the ability of the updated DP-system to deal with a wide range of specific heavy lift conditions. Results were evaluated between Heerema office, Kongsberg and offshore personnel for developing the optimum Kalman filter parameters. Finally, the system is tested during a dedicated DP-trial program onboard Thialf. As the results of all these tests were very successful, the new High Kalman filter was made available onboard Thialf as a permanent option next to the original functionalities. The paper addresses the steps followed to define the new Kalman filter settings, the simulations performed to test the new filter as well as to show results of the offshore tests that were done to validate the numerical analysis.

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How much do fish aggregating devices (FADs) modify the floating object environment in the ocean?

Fisheries Oceanography ◽

10.1111/fog.12014 ◽

2013 ◽

Vol 22 (3) ◽

pp. 147-153 ◽

Cited By ~ 18

Author(s):

Laurent Dagorn ◽

Nicolas Bez ◽

Thomas Fauvel ◽

Emily Walker

Keyword(s):

Floating Object ◽

Fish Aggregating Devices

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1P2-V08 Attitude Estimation of a Space Floating Object with Unknown Disturbance Using Particle Filter

The Proceedings of JSME annual Conference on Robotics and Mechatronics (Robomec) ◽

10.1299/jsmermd.2015._1p2-v08_1 ◽

2015 ◽

Vol 2015 (0) ◽

pp. _1P2-V08_1-_1P2-V08_4

Author(s):

Shunsuke KAWASAKI ◽

Satoko ABIKO ◽

Xin JIANG ◽

Masaru UCHIYAMA

Keyword(s):

Particle Filter ◽

Attitude Estimation ◽

Floating Object ◽

Unknown Disturbance

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A Small Axisymmetric Obstacle in the Presence of an Underwater Point-Source Field

Journal of Computational Acoustics ◽

10.1142/s0218396x97000149 ◽

1997 ◽

Vol 05 (03) ◽

pp. 243-263 ◽

Cited By ~ 5

Author(s):

A. Charalambopoulos ◽

G. Dassios ◽

P. Ergatis

Keyword(s):

Free Surface ◽

Point Source ◽

Pressure Field ◽

Vertical Line ◽

Source Field ◽

Floating Object ◽

Smooth Objects ◽

Special Case

A small, acoustically hard and axisymmetric object is placed in a deep homogeneous sea environment with a hard plane bottom. The free surface of the sea is assumed to be soft. The source and the receiver are placed on the same vertical line, far away from the object. Given the positions of the source and the receiver, two problems are solved: the determination of the pressure field at the receiver from the position and the shape of the object, and the determination of the position and the shape of the object from the pressure field at the receiver. The special case of smooth objects generated by the rotation of differentiable curves is studied. We provide results for the case of a floating object and for the case of an object or a boss at the bottom of the sea.

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Geometric Development of Point Absorber Wave Energy Conventer

MATEC Web of Conferences ◽

10.1051/matecconf/201816401011 ◽

2018 ◽

Vol 164 ◽

pp. 01011

Author(s):

Heri Saptono Warpindyasmoro ◽

Kartika Gunadi

Keyword(s):

Wave Energy ◽

The Body ◽

Response Amplitude ◽

Wave Period ◽

Ocean Wave ◽

Curve Shape ◽

Southern Coast ◽

Flat Bottom ◽

Point Absorber ◽

Floating Object

This paper describes how to design the shape of a floating object that will be used as a point absorber on wave energy converster. The buoyant shape to be analyzed is a tube has a flat top plane with varying bottom plane, i.e cylinder, hemisphare and cone. The analysis was conducted on the diameter of the object and the influence of the ocean wave period on the area where the apparatus was later applied in the southern coast of East Java. Using Moses's software, it is found that the diameter of the body is proportional to the period in which the maximum of Response Amplitude Operator floating object. The object with a flat bottom field (cylinder) produces the largest period, which is 10 s, followed by a curve shape of a hemisphere with a period of 9 s and last with a cone shape cone with a period of at least 8 s. This shows that the curvature of the bottom of the buoyancy can be adjusted according to the wave period to obtain maximum Response Amplitude Operator.

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