PROCESS DESIGN OF BATHYMETRIC, WATER LEVEL, AND SURFACE CURRENT DATA CONVERSION ACCORDING TO IHO S-100 STANDARD AS PART OF ENC CELL NUMBER 293
<p align="justify"> With the advent of Electronic Navigational Charts (ENC) since the International Hydrographic Organization (IHO) released the S-57 standard in 1992, digital hydrographic data has become a critical element in ensuring safety in marine navigation. In response to t...
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id-itb.:740222023-06-26T09:47:24ZPROCESS DESIGN OF BATHYMETRIC, WATER LEVEL, AND SURFACE CURRENT DATA CONVERSION ACCORDING TO IHO S-100 STANDARD AS PART OF ENC CELL NUMBER 293 Daffa Rizki El-Islami, Muhammad Indonesia Final Project IHO S-100, digital hydrographic data, bathymetric surface, water level, surface currents INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/74022 <p align="justify"> With the advent of Electronic Navigational Charts (ENC) since the International Hydrographic Organization (IHO) released the S-57 standard in 1992, digital hydrographic data has become a critical element in ensuring safety in marine navigation. In response to the developments in the geospatial information world, IHO released the S-100, a new universal hydrographic data model designed to be compatible with the latest geospatial data standards. IHO S-100 supports a wide range of hydrographic data applications, including bathymetric surface, water level, and surface current data. Presently, the S-100 is not yet widely known and implemented by the hydrographic industry, and its use is limited to national hydrographic offices. The establishment of best practices in the conversion of S-100 datasets is necessary to accelerate the adoption of the standard by the wider hydrographic community. This project aims to design a process to produce digital hydrographic data, i.e., bathymetric surface, water level, and surface current data conformant to the IHO S-100 series of product specifications. A conversion process is formulated as the product of this project, complete with the design criteria and a toolbox for conversion of the S-100 datasets. The process consists of four stages: initial data processing, structuring, attribution, and testing. The conversion tools used are primarily in the Python programming language, and testing is done using S-100 Viewer software. ENC number 293 covering the Alas Strait in West Nusa Tenggara is used in the example of hydrographic datasets produced in this project, complete with the S-100 data file and portrayal visualization. This project also highlights the implementation potential of the production of S-100 datasets based on the rate of marine traffic in ENC 293. text |
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<p align="justify"> With the advent of Electronic Navigational Charts (ENC) since the International Hydrographic Organization (IHO) released the S-57 standard in 1992, digital hydrographic data has become a critical element in ensuring safety in marine navigation. In response to the developments in the geospatial information world, IHO released the S-100, a new universal hydrographic data model designed to be compatible with the latest geospatial data standards. IHO S-100 supports a wide range of hydrographic data applications, including bathymetric surface, water level, and surface current data. Presently, the S-100 is not yet widely known and implemented by the hydrographic industry, and its use is limited to national hydrographic offices. The establishment of best practices in the conversion of S-100 datasets is necessary to accelerate the adoption of the standard by the wider hydrographic community. This project aims to design a process to produce digital hydrographic data, i.e., bathymetric surface, water level, and surface current data conformant to the IHO S-100 series of product specifications. A conversion process is formulated as the product of this project, complete with the design criteria and a toolbox for conversion of the S-100 datasets. The process consists of four stages: initial data processing, structuring, attribution, and testing. The conversion tools used are primarily in the Python programming language, and testing is done using S-100 Viewer software. ENC number 293 covering the Alas Strait in West Nusa Tenggara is used in the example of hydrographic datasets produced in this project, complete with the S-100 data file and portrayal visualization. This project also highlights the implementation potential of the production of S-100 datasets based on the rate of marine traffic in ENC 293.
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| format |
Final Project |
| author |
Daffa Rizki El-Islami, Muhammad |
| spellingShingle |
Daffa Rizki El-Islami, Muhammad PROCESS DESIGN OF BATHYMETRIC, WATER LEVEL, AND SURFACE CURRENT DATA CONVERSION ACCORDING TO IHO S-100 STANDARD AS PART OF ENC CELL NUMBER 293 |
| author_facet |
Daffa Rizki El-Islami, Muhammad |
| author_sort |
Daffa Rizki El-Islami, Muhammad |
| title |
PROCESS DESIGN OF BATHYMETRIC, WATER LEVEL, AND SURFACE CURRENT DATA CONVERSION ACCORDING TO IHO S-100 STANDARD AS PART OF ENC CELL NUMBER 293 |
| title_short |
PROCESS DESIGN OF BATHYMETRIC, WATER LEVEL, AND SURFACE CURRENT DATA CONVERSION ACCORDING TO IHO S-100 STANDARD AS PART OF ENC CELL NUMBER 293 |
| title_full |
PROCESS DESIGN OF BATHYMETRIC, WATER LEVEL, AND SURFACE CURRENT DATA CONVERSION ACCORDING TO IHO S-100 STANDARD AS PART OF ENC CELL NUMBER 293 |
| title_fullStr |
PROCESS DESIGN OF BATHYMETRIC, WATER LEVEL, AND SURFACE CURRENT DATA CONVERSION ACCORDING TO IHO S-100 STANDARD AS PART OF ENC CELL NUMBER 293 |
| title_full_unstemmed |
PROCESS DESIGN OF BATHYMETRIC, WATER LEVEL, AND SURFACE CURRENT DATA CONVERSION ACCORDING TO IHO S-100 STANDARD AS PART OF ENC CELL NUMBER 293 |
| title_sort |
process design of bathymetric, water level, and surface current data conversion according to iho s-100 standard as part of enc cell number 293 |
| url |
https://digilib.itb.ac.id/gdl/view/74022 |
| _version_ |
1822007281343004672 |