Advanced Mission Critical Communication in Maritime Search and Rescue Actions

被引:0
|
作者
机构
[1] Paladin, Zdravko
[2] Fountoulakis, Emmanouil
[3] Luksic, Zarko
[4] Kapidani, Nexhat
[5] Ribar, Drazen
[6] Boustras, Geogios
来源
Paladin, Zdravko | 1600年 / Institute of Electrical and Electronics Engineers Inc.卷
关键词
Successful maritime search and rescue (SAR) missions and real-time information exchange among first responder organizations (FRs) and command/coordination centers; fully rely on straightforward information flow and accurate communication channels; supported by novel data sharing technologies; advanced network connections; and interoperable platforms. Therefore; SAR actions at sea; as an integral part of the national maritime safety system; are supported with mission-critical communication (MCC) networks and devices. The paper presents the analysis of SAR operational and communication specifics; use cases and technical efficiency increasing in the maritime safety framework; with a focus on specific operational capabilities of MCC; connection networks; devices; and procedures for maritime distress communication. Further to MCC; the paper provides insight into the 5G network applied in maritime SAR and communications. The case study consists of an elaboration of the Mission Critical Communication platform components and X/BELLO tool; a secure 5G application that allows real-time information exchange; deployed under the RESPOND-A project approach. These systems represent the technical part of the SAR pilot of the EU RESPOND-A project showcasing the opportunities to strengthen the operational framework of maritime FRs and improve their joint mission performance. © 2023 IEEE;
D O I
暂无
中图分类号
学科分类号
摘要
引用
收藏
相关论文
共 50 条
  • [31] Development of an integrated optoelectronic system for search and rescue mission control
    Sajkowski, M.
    Stenzel, T.
    Boratynski, T.
    Bokszczanin, J.
    Kruk, T.
    PHOTONICS LETTERS OF POLAND, 2016, 8 (03) : 91 - 93
  • [32] Connectivity considerations for mission planning of a search and rescue drone team
    Adam, Evsen Yanmaz
    TURKISH JOURNAL OF ELECTRICAL ENGINEERING AND COMPUTER SCIENCES, 2020, 28 (04) : 2228 - 2243
  • [33] Advanced resolution enhancement techniques for search and rescue
    Breitenstein, D
    Rogers, GW
    Roth, D
    Huxtable, B
    AUTOMATIC TARGET RECOGNITION X, 2000, 4050 : 207 - 218
  • [34] Coverage path planning for maritime search and rescue using reinforcement learning
    Ai, Bo
    Jia, Maoxin
    Xu, Hanwen
    Xu, Jiangling
    Wen, Zhen
    Li, Benshuai
    Zhang, Dan
    OCEAN ENGINEERING, 2021, 241
  • [35] NOVEL CONCEPT FOR A SATELLITE-BASED MARITIME SEARCH AND RESCUE SYSTEM
    WEINBERG, A
    KAMINSKY, Y
    KEBLAWI, F
    IEEE JOURNAL OF OCEANIC ENGINEERING, 1977, 2 (03) : 274 - 285
  • [36] Multiple imputation of maritime search and rescue data at multiple missing patterns
    Wang, Guobo
    Ma, Minglu
    Jiang, Lili
    Chen, Fengyun
    Xu, Liansheng
    PLOS ONE, 2021, 16 (06):
  • [37] Evaluation method for helicopter maritime search and rescue response plan with uncertainty
    Hu LIU
    Zikun CHEN
    Yongliang TIAN
    Bin WANG
    Hao YANG
    Guanghui WU
    Chinese Journal of Aeronautics, 2021, 34 (04) : 493 - 507
  • [38] Multiple robot operations for maritime search and rescue in euRathlon 2015 competition
    Matos, Anibal
    Martins, Alfredo
    Dias, Andre
    Ferreira, Bruno
    Almeida, Jose Miguel
    Ferreira, Hugo
    Amaral, Guilherme
    Figueiredo, Andre
    Almeida, Rui
    Silva, Filipe
    OCEANS 2016 - SHANGHAI, 2016,
  • [39] Modeling of Point Search Area and Rescue Path for Maritime Air Crash
    Yu, Ping
    Wang, Jing
    Liu, Zhen-Tao
    Bian, Hao-Ran
    2015 34TH CHINESE CONTROL CONFERENCE (CCC), 2015, : 2786 - 2791
  • [40] Vulnerability and marginalisation at sea: maritime search and rescue, and the meaning of 'place of safety'
    Velasco, Ainhoa Campas
    INTERNATIONAL JOURNAL OF LAW IN CONTEXT, 2022, 18 (01) : 85 - 99
12345