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Spatial database creation applicable for global path planning in integrated navigational system

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Název: Spatial database creation applicable for global path planning in integrated navigational system
Autoři: Rudan, Igor, Žuškin, Srđan, Šakan, Davor
Zdroj: Proceedings of the International Association of Maritime Universities (IAMU) Conference 2024. :335-342
Informace o vydavateli: 2024.
Rok vydání: 2024
Témata: global path planning, open source, voyage planning, electronic navigational chart, spatial database
Popis: Global and local path (GPP, LPP) planning is very actively researched for different vessels and manning levels. To employ planning algorithms or workflows, an environment model must be created, which is not commonly based on Electronic Navigational Chart (ENC), although it is the official and standardized representation of maritime environment. ENCs are used in Electronic Chart Display and Information System (ECDIS), a component of an Integrated Navigation System (INS), the software platform fusing ECDIS, radar, sensor data and functions including route planning for which GPP can be considered as a part thereof. ENCs were created primarily for human interpretation, however with intended usage not solely for navigation. Closed and proprietary navigational and research software, ENC format limitations, scarce availability of free ENC file formats and complex usage outside of regulated frameworks contribute to limited number of ENC based GPP research approaches, usually based on single or few ENC objects. Therefore, the purpose of this study was to create an open-source methodology based on spatially extended object-relational database, programming languages and libraries with geographic information system to manage ENC objects used for static environment modelling and GPP applicable in INS or broader context. We created the navigable area and environment model using ENC objects and hexagonal hierarchical grids from Uber’s H3 Hexagonal Hierarchical Geospatial Indexing System library. For evaluation, we used ENC objects from different usage bands and scales for area between the ports of Savannah and Charleston in the USA with results confirming the open-source methodology applicability, along with possibilities for further research and development.
Druh dokumentu: Conference object
ISSN: 2706-6738
Přístupová URL adresa: https://aga24.maritime.edu/wp-content/uploads/IAMUC-2024-proceedings-final-corrected.pdf
Přístupové číslo: edsair.dris...01492..02c8d540def50fce847c527534b6ebc9
Databáze: OpenAIRE
Popis
Abstrakt:Global and local path (GPP, LPP) planning is very actively researched for different vessels and manning levels. To employ planning algorithms or workflows, an environment model must be created, which is not commonly based on Electronic Navigational Chart (ENC), although it is the official and standardized representation of maritime environment. ENCs are used in Electronic Chart Display and Information System (ECDIS), a component of an Integrated Navigation System (INS), the software platform fusing ECDIS, radar, sensor data and functions including route planning for which GPP can be considered as a part thereof. ENCs were created primarily for human interpretation, however with intended usage not solely for navigation. Closed and proprietary navigational and research software, ENC format limitations, scarce availability of free ENC file formats and complex usage outside of regulated frameworks contribute to limited number of ENC based GPP research approaches, usually based on single or few ENC objects. Therefore, the purpose of this study was to create an open-source methodology based on spatially extended object-relational database, programming languages and libraries with geographic information system to manage ENC objects used for static environment modelling and GPP applicable in INS or broader context. We created the navigable area and environment model using ENC objects and hexagonal hierarchical grids from Uber’s H3 Hexagonal Hierarchical Geospatial Indexing System library. For evaluation, we used ENC objects from different usage bands and scales for area between the ports of Savannah and Charleston in the USA with results confirming the open-source methodology applicability, along with possibilities for further research and development.
ISSN:27066738