연구동향 분석
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복잡한 실내 환경에서 위치기반 통합관제를 위한 실시간 초정밀 위치추적시스템 설계 및 구현 = Design and Implementation of a Real-time High Precision Location Tracking System for Location Based Integrated Control in Complex Indoor Environments

이동근 2020년

논문상세정보
인용/피인용
' 복잡한 실내 환경에서 위치기반 통합관제를 위한 실시간 초정밀 위치추적시스템 설계 및 구현 = Design and Implementation of a Real-time High Precision Location Tracking System for Location Based Integrated Control in Complex Indoor Environments' 의 주제별 논문영향력
논문영향력 선정 방법
논문영향력 요약
주제
  • big-data
  • rtls
  • 빅데이터
  • 위치추적시스템
  • 위치측위
  • 통합관제시스템
동일주제 총논문수 논문피인용 총횟수 주제별 논문영향력의 평균
3,987 0

0.0%

' 복잡한 실내 환경에서 위치기반 통합관제를 위한 실시간 초정밀 위치추적시스템 설계 및 구현 = Design and Implementation of a Real-time High Precision Location Tracking System for Location Based Integrated Control in Complex Indoor Environments' 의 참고문헌

  • ¡°Wi-Fi Fingerprint Location Estimation System Based on Reliability¡±
    Volume 38C Issue 6 , pp.531-539 [2013]
  • ¡°Ultrawideband radio design : The promise of high-speed short-range wirelessConnec tivity¡±
    [2004]
  • ¡°Near-Location Tracking Technology Trends¡± , Weekly Technical Trends Issue 1322
    [2007]
  • ¡°MonteCarlo Localization in Dense Multipath Environments Using UWB Ranging¡±
    [2005]
  • ¡°Mobile robot localization based on Ultra-Wide-Band ranging : A particle filter approach¡±
    16 , Issue 16 ,
  • ¡°Location Information Service ( LBS ) Technology and Market Trend Analysis¡±
    [2015]
  • ¡°Localization Algorithm for a mobile robot using iGS¡± Jour .
    vol . 14 , no . 3 . [2008]
  • ¡°LBS Market andCompany Trends¡±
    [2011]
  • ¡°Implementation of Ubiquitous Robot in a Networked Environment¡± J. ofControl ,
    vol . 11 , no . 12 , [2005]
  • ¡°Global LBS Market ( 2017-2021 ) ¡±
    [2017]
  • ¡°Fingerprinting Bayesian Algorithm for Indoor Positioning Decision¡± ,
    Vol . 35 , No . 6 , pp.888-894 . [2010]
  • ¡°Energy-efficient positioning for smartphones usingCell-id sequence matching ,
    [2011]
  • ¡°Domestic and International LBS Industry Trend Report¡±
    [2017]
  • ¡°Development of Tourism Service Platform for Building Smart Tourism Ecosystem¡±
    [2013]
  • ¡°DesigningControl strategies for a simulated robot using non-randomly initialized genetic algorithms¡± ,
    [1996]
  • ¡°DOA and TOA based localization services protocol in IEEE 802.11 networks.¡± Wireless PersonalCommun.
    vol . 54 , no . 1 , pp.155-168 . [2010]
  • ¡°Coorative Localization Bounds for Indoor Ultra-Wideban Wireless Sensor Networks¡± ,
    Volume 2008 , Article ID 852509 . [2008]
  • ¡°A Study on the Social Influences of Social Platform and Its Development Directions¡±
    [2011]
  • ¡°A Study on Efficient UWB Positioning ErrorCompensation Technique¡± . ? The Journal of Korea Information andCommunications Society , ?
    34 ( 10 ) , ? pp.727-735 [2009]
  • [6] KAIST, Department of Computer Science, Intelligent Service Integration Lab.
  • [33] https://www.indooratlas.com. 2014.
  • [31] http://www.qvoss.co.kr. 2014.
  • [17] https://www.apple.com. 2014.
  • [16] https://www.google.co.kr. 2010.
  • [15] https://www.qualcomm.com. 2014.
  • [14] https://www.ktnet.com. 2012.
  • [13] http://www.naver.com. 2016.
  • [12] http://www.sktelecom.com. 2018.
  • [10] http://www.ido-link.com. 2016.
  • Performance Comparison of Indoor Positioning Techniques based on Location Fingerprinting in Wireless Networks
    Vol . 2 , pp.1569-1574 [2005]
  • Modeling of Indoor Positioning System Based on Location Fingerprinting
    Vol . 2 , pp.1012-1022 . [2004]
  • Comparative Statistical Analysis of Indoor Positioning Using Empirical Data and Indoor Radio Channel Models
    pp.1018-1022 [2006]
  • ? TDOA Positioning Technique for UWB Indoor Positioning , Journal of the Institute of Electronics and Information Engineers-TC , ?
    42 ( 1 ) , ? pp.9-15 [2005]