윤석민 scite author profile

윤석민

5Publications

2Citation Statements Received

0Citation Statements Given

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Experimental Study on Compressibility Modulus of Pressure Compensation Oil for Underwater Vehicle

김진호¹,

윤석민²,

홍섭³

et al. 2015

Ocean and Polar Research

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: In order to determine the appropriate volume of the a pressure compensator of deep seabed mining robots, this paper reports on an experimental test for oil volume change in an oil-filled box. At the design stage of underwater robots, it is crucial to determine the capacity of the hydraulic compensator which is replenished as much as the contracted oil volume of the robots. A pilot mining robot, MienRo was designed to work under 6,000 m in the deep sea. The hydraulic actuating oil and pressure compensating oil of MineRo may be exposed at a hydrostatic pressure environment of 600 bar. Although the oil can be assumed to be incompressible, its volume is actually changed under high pressure conditions due to air contained in the oil and oil contraction. To determine the capacity of the pressure compensator, the oil contraction rate should be verified through an experimental test using a hyperbaric chamber.

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Comparison of Static and Dynamic Balance of Youth Goalball andTrack and Field Athletes with Visual Impairments

윤석민¹,

이현수²,

Silliman³

2010

KSSLS

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Basic Control Algorithm for Parallel Formation of Multi-mining Robots

윤석민¹,

여태경²,

홍섭³

et al. 2014

Ocean and Polar Research

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This paper proposes a formation control method by which multi-mining robots maintain a specified formation and follow a path. To secure the path tracking performance, a pure-pursuit algorithm is considered for each individual robot, and to minimize the deviation from the reference path, speed reduction in the steering motion is added. For the formation, in which two robots are parallel in a lateral direction, the robots track the specified path at a constant distance. In this way, the Leader-Follower method is adopted and the following robot knows the position and heading angle of the leader robot. Through the experimental test using two ground vehicle models, the performance is verified.

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Digital Contents Education in Universities

윤석민¹

2007

journalofcommunicationresearch

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Estimation of MineRo's Kinematic Parameters for Underwater Navigation Algorithm

여태경¹,

윤석민²,

박성재³

et al. 2011

Ocean and Polar Research

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: A test miner named MineRo was constructed for the purpose of shallow water test of mining performance. In June of 2009, the performance test was conducted in depth of 100 m, 5 km away from Hupo-port (Korean East Sea), to assess if the developed system is able to collect and lift manganese nodules from seafloor. In August of 2010, in-situ test of automatic path tracking control of MineRo was performed in depth of 120 m at the same site. For path tracking control, a localization algorithm determining MineRo's position on seabed is prerequisite. This study proposes an improved underwater navigation algorithm through estimation of MineRo's kinematic parameters. In general, the kinematic parameters such as track slips and slip angle are indirectly calculated using the position data from USBL (Ultra-Short Base Line) system and heading data from gyro sensors. However, the obtained data values are likely to be different from the real values, primarily due to the random noise of position data. The aim of this study is to enhance the reliability of the algorithm by measuring kinematic parameters, track slips and slip angle.

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윤석민

Experimental Study on Compressibility Modulus of Pressure Compensation Oil for Underwater Vehicle

Comparison of Static and Dynamic Balance of Youth Goalball andTrack and Field Athletes with Visual Impairments

Basic Control Algorithm for Parallel Formation of Multi-mining Robots

Digital Contents Education in Universities

Estimation of MineRo's Kinematic Parameters for Underwater Navigation Algorithm

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