• Title/Summary/Keyword: 수면자세 제어

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U-healthcare Based System for Sleeping Control and Remote Monitoring (u-헬스케어기반의 수면제어 및 원격모니터링 시스템)

  • Kim, Dong-Ho;Jeong, Chang-Won;Joo, Su-Chong
    • Journal of Internet Computing and Services
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    • v.8 no.1
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    • pp.33-45
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    • 2007
  • Using switches and sensors informing the current on or off state, this paper suggests a sleeping control and remote monitoring system that not only can recognize the sleeping situations but also can control for keeping an appropriate sleeping situation remotely, And we show an example that this system is applied to the healthcare sleeping mat, Our system comprises the following 3 parts: a part for detecting the sleeping situations, a part for extracting sensing data and sending/receiving the relating situated data, and a part controlling and monitoring the all of sleeping situations. In details, in order to develop our system, we used the touch and pressure-sensitive sensors with On/Off functions for a purpose of the first part, The second part consists of the self-developed embedded board with the socket based communication as well as extracting real-time sensing data. And the third part is implemented by service modules for providing controlling and monitoring functions previously described. Finally, these service modules are implemented by the TMO scheme, one of real-time object-oriented programming models and the communications among them is supported using the TMOSM of distributed real-time middleware.

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Implement the system for apnea patient (무호흡증 환자를 위한 시스템구현)

  • Ye, Soo-young;Eom, Sang-hee
    • Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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    • 2017.05a
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    • pp.267-268
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    • 2017
  • Obstructive sleep apnea in patients, between 70 and 80 percent, can be cured with just a posture correcting. It needed to know the current position information for correcting the position. The pressure sensors of the array type were used to obtain position information. These sensors can obtain information from the experimenter about position. In addition, air cylinder corrected the position of the experimenter by lifting the bed. The experimenter can be changed position without breaking during sleep by the system.

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미래의 선박에 대하여

  • 박태인
    • Journal of the KSME
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    • v.32 no.9
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    • pp.777-787
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    • 1992
  • 21세기를 향한 여객선의 추세는 초고속화, 대형화(국제화), 성에너지화, 우수한 내항성능, 저진동 및 저소음 등을 갖춘 선박을 요구하고 있다. 이런 관점에서 초고속선으로 속력에 한계가 있는 단동선 (monohull), 쌍동배수량형(catamaran), 최소수면 쌍동선(SWATH)의 선형과 대형화가 곤란한 수중익선 (hydrofoil)보다는 속력면에서 유리하고 대형화가 가능한 표면 효과선 또는 앞 에서 언급한 고속 선형의 장점을 복합시킨 각종 복합선형이 개발되리라고 생각한다. 그러나 복 합선형이 실용화되기까지는 경제적인 건조비, 운항자세 제어 시스템, 신소재를 이용한 경구조화, 진동과 소음, 추진 시스템 등에 대한 요소 기술의 개발이 선행되어야 한다. 끝으로 선박의 속력이 50노트가 넘는 초고속선을 설계, 제작, 운항을 하는데 있어 그 개념이 조선공학에서 다루어지는 통상 선박기술의 연장이라고 그 영역을 정리하는 경향이 있다. 이 글을 정리하면서 느낀 것이 지만 해상교통 수단의 초고속화가 이루어질수록 그 지지기술 및 자세제어기술 등에 있어서는 항공기 기술에 가까워짐을 알게 되었다. 그러한 뜻에서 초고속선 개발에는 항공기 기술에서 얻 어진 노하우를 잘 활용하는 일도 중요하리라 생각된다.

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Depth calibration method of SWASH vessel using its position and ultrasonic sensor (SWASH형 시험선의 자세 및 초음파센서를 이용한 심도 보정 방법)

  • Hwang, Heesung;Cha, Jeongmin;You, Youngjoon
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2017.05a
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    • pp.1140-1141
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    • 2017
  • Depth of SWASH(Small Waterplane Area Single Hull) vessel which is an input value of its control system is measured by ultrasonic sensor. Distance to the its center of gravity can be simply calculated through ultrasonic sensor attached to the front of the vessel from the known values. However, it is to be calibrated with respect to its position for the accurate depth because it has geometric relation between the measurement value of ultrasonic sensor and the depth. In this research, depth calibration method of SWASH vessel using its position and ultrasonic sensor is introduced.

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Convergence system of offshore wind infrastructure monitoring using the RC submarine (RC잠수함을 이용한 해상풍력하부구조 모니터링 융합시스템)

  • Bang, Gul-Won;Bang, Sang-Won;Kim, Yong-Ho
    • Journal of the Korea Convergence Society
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    • v.6 no.6
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    • pp.177-183
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    • 2015
  • The image information acquired by a model submarine is transmitted through the repeater. The control signal of a position for submarine and its speed is also controlled by the repeater. Shooting images of underwater circumstances are transmitted to the repeater where the received signal controls a position and speed of underwater submarine. This repeater is combined by a buoy that is floating on the surface to relay the signal of image as well as control between a control unit and a submarine whereas the repeater communicates wirelessly with a control unit. Due to wire communication between the repeater and the submarine, the underwater exploration can be smoothly carried out without a risk of loss of a model submarine. Also, connecting to the repeater and control unit wirelessly makes it possible to conduct easily the underwater exploration. The convergence technology that combines a wireless communication and a control as well as a model submarine is designed.