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      차세대 이동통신 및 스마트 모빌리티에 대한 위성항법시스템 활용 동향 = Utilization trend of global satellite navigation systems for next generation mobile communications and smart mobility

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      https://www.riss.kr/link?id=A108911914

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      다국어 초록 (Multilingual Abstract)

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      Global Navigation Satellite System (GNSS) is one of the core technologies for the 4th Industrial Revolution, and its importance is increasingly highlighted in the next generation communications and smart mobility requiring the accurate location information. As the development of the high-performance/high-precesion GNSS technology makes it possible to obtain the more accurate locations information, the location based products and systems, which provide the high-quality service, are being researched/developed. In this paper, we present the results of a survey on the recent research trends and examples, utilizing GNSS technology in fields of the next generation communications and smart mobility, and analyzes the results.
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      Global Navigation Satellite System (GNSS) is one of the core technologies for the 4th Industrial Revolution, and its importance is increasingly highlighted in the next generation communications and smart mobility requiring the accurate location inform...

      Global Navigation Satellite System (GNSS) is one of the core technologies for the 4th Industrial Revolution, and its importance is increasingly highlighted in the next generation communications and smart mobility requiring the accurate location information. As the development of the high-performance/high-precesion GNSS technology makes it possible to obtain the more accurate locations information, the location based products and systems, which provide the high-quality service, are being researched/developed. In this paper, we present the results of a survey on the recent research trends and examples, utilizing GNSS technology in fields of the next generation communications and smart mobility, and analyzes the results.

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      참고문헌 (Reference)

      1 양삼규 ; 강가원 ; 박준영, "자율군집주행차량 유무에 따른 운전자 주행행태 분석" 대한교통학회 40 (40): 570-584, 2022

      2 김성환 ; 이두기 ; 천재희 ; 김승재 ; 유기호, "무인 배송용 드론 설계 및 시험비행" 제어·로봇·시스템학회 22 (22): 204-209, 2016

      3 김신 ; 신성 ; 유성현, "무선통신 환경에서 데이터 손실 시 모바일 로봇의 측위 알고리즘" 한국전자통신학회 18 (18): 601-608, 2023

      4 조해민 ; 권태욱, "무선센서네트워크에서 RSSI와 AoA를 활용한 GPS 정밀도 향상 방안" 한국전자통신학회 17 (17): 889-896, 2022

      5 배성현 ; 한형진 ; 김학일, "로보택시의 정밀 전역 경로 계획을 위한 μ-Lanelet 그래프" 제어·로봇·시스템학회 27 (27): 925-932, 2021

      6 김건우 ; 김무승, "UAV 탑재용 5G 기반 RTK 개발을 위한 Network-RTK 정확도 비교 분석" 한국산학기술학회 23 (23): 523-528, 2022

      7 S. Lee, "The Technical Trends of Electric Vehicle Autonomous Driving" 69 (69): 31-35, 2020

      8 E. Keum, "The Necessity of Public Transportation Application Development for Self-driving Public Transportation System" 35-35, 2021

      9 J. Park, "The Future Strategy on Drone Technology and Logistics Industry of Korea" 2016 (2016): 9-26, 2016

      10 Kapseok Chang ; Keunyoung Kim ; Sanguk Lee ; Jae-Hean Kim ; Junghoon Lee ; Hyungju Kim ; Young-Jo Ko ; Ilgyu Kim ; Seung Chan Bang, "Technical challenges and solutions for 10 cm level positioning accuracy towards 6G" 한국통신학회 9 (9): 492-506, 2023

      1 양삼규 ; 강가원 ; 박준영, "자율군집주행차량 유무에 따른 운전자 주행행태 분석" 대한교통학회 40 (40): 570-584, 2022

      2 김성환 ; 이두기 ; 천재희 ; 김승재 ; 유기호, "무인 배송용 드론 설계 및 시험비행" 제어·로봇·시스템학회 22 (22): 204-209, 2016

      3 김신 ; 신성 ; 유성현, "무선통신 환경에서 데이터 손실 시 모바일 로봇의 측위 알고리즘" 한국전자통신학회 18 (18): 601-608, 2023

      4 조해민 ; 권태욱, "무선센서네트워크에서 RSSI와 AoA를 활용한 GPS 정밀도 향상 방안" 한국전자통신학회 17 (17): 889-896, 2022

      5 배성현 ; 한형진 ; 김학일, "로보택시의 정밀 전역 경로 계획을 위한 μ-Lanelet 그래프" 제어·로봇·시스템학회 27 (27): 925-932, 2021

      6 김건우 ; 김무승, "UAV 탑재용 5G 기반 RTK 개발을 위한 Network-RTK 정확도 비교 분석" 한국산학기술학회 23 (23): 523-528, 2022

      7 S. Lee, "The Technical Trends of Electric Vehicle Autonomous Driving" 69 (69): 31-35, 2020

      8 E. Keum, "The Necessity of Public Transportation Application Development for Self-driving Public Transportation System" 35-35, 2021

      9 J. Park, "The Future Strategy on Drone Technology and Logistics Industry of Korea" 2016 (2016): 9-26, 2016

      10 Kapseok Chang ; Keunyoung Kim ; Sanguk Lee ; Jae-Hean Kim ; Junghoon Lee ; Hyungju Kim ; Young-Jo Ko ; Ilgyu Kim ; Seung Chan Bang, "Technical challenges and solutions for 10 cm level positioning accuracy towards 6G" 한국통신학회 9 (9): 492-506, 2023

      11 Facts & Factors Research, "Smart Mobility Market Size, Share Global Analysis Report, 2023–2030" 2022

      12 신재호 ; 유재영 ; 한준희 ; 황인준 ; 박형근, "RC카를 이용한 자율주행 기초 기술 연구" 한국전자통신학회 17 (17): 49-58, 2022

      13 F. Butt, "On the Integration of Enabling Wireless Technologies and Sensor Fusion for Next-Generation Connected and Autonomous Vehicles" 10 : 14643-14668, 2022

      14 M. Alsharif, "Milestones of Wireless Communication Networks and Technology Prospect of Next Generation(6G)" 71 (71): 4803-4818, 2022

      15 Y. Yoo, "Impacts of penetration rate of platooning groups and the number of platooning vehicles in the platooning on the traffic flow" 644-645, 2021

      16 L. Bai, "GNSS-5G Hybrid Positioning Based on Multi-Rate Measurements Fusion and Proactive Measurement Uncertainty Prediction" 71 : 1-15, 2022

      17 The Korea Transport Institute, "Freight Transportation Market Trends 2021 Annual Report" 2022

      18 V. Lappas, "EuroDRONE, a European Unmanned Traffic Management Testbed for U-Space" 6 (6): 53-, 2022

      19 Y. Yuan, "Driving behavior analysis of city buses based on real-time GNSS traces and road information" 21 (21): 687-, 2021

      20 J. Lee, "Domestic and Abroad Trends for Automated Transit Service" 18 (18): 59-67, 2021

      21 Korea Expressway Corporation, "Development of Operation Technology for V2X Truck Platooning" 2022

      22 J. Jagelčák, "Determination of turning radius and lateral acceleration of vehicle by GNSS/INS sensor" 22 (22): 2298-, 2022

      23 J. Del Peral-Rosado, "Design Considerations of Dedicated and Aerial 5G Networks for Enhanced Positioning Services" 1-12, 2022

      24 Ministry of Land, Infrastructure and Transport, "Autonomous cooperative platooning of 4 trucks" 2021

      25 S. Hyun, "A Study on the Substantiation Scenario Development of Automated Shuttle Service on Public Road" 840-841, 2021

      26 Gyeonggi Research Institute, "A Study of Traffic Management Plan for Autonomous Vehicle Driving in Gyeonggi-do" 2022

      27 G. Gao, "A Hypothesis Test-Constrained Robust Kalman Filter for INS/GNSS Integration With Abnormal Measurement" 72 (72): 1662-1673, 2023

      28 W. Zhang, "A GNSS/5G integrated three-dimensional positioning scheme based on D2D communication" 14 (14): 2022

      29 W. Wen, "3D LiDAR Aided GNSS NLOS Mitigation in Urban Canyons" 23 (23): 18224-18236, 2022

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