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Andi Baso Sofyan A. P
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Program Studi Teknologi Geomatika Gedung G, Politeknik Pertanian Negeri Samarinda Jl. Samratulangi Samarinda
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Kota samarinda,
Kalimantan timur
INDONESIA
Journal of Geomatics Engineering, Technology, and Science
Published by Politeknik Pertanian Negeri Samarinda
ISSN : 28301811     EISSN : 2988523X     DOI : -
Core Subject : Science, Social, Engineering,
Aerospace Engineering Civil Engineering, Building, Construction & Architecture Earth & Planetary Sciences Engineering Environmental Science
GETS: Journal of Geomatics, Technology, and Science published by Geomatics Technology Study Program, Department of Engineering and Informatics, Samarinda State Agricultural Polytechnic. The publication of the first edition in 2022, apart from being evidence of the increasing appreciation for self-development and contribution to the development of studies in geodesy and geomatics, also informs that this GETS Journal will be published regularly twice in a year, namely in March and September. We as managers also always make improvements and improvements so that this GETS Journal can be recognized nationally and internationally. In Volume 01 Number 01 September 2022, the GETS Journal presents a number of articles containing research articles related to the fields of Mapping, Geospatial Information, and also applications to website or mobile-based Geographic Information Systems. This first journal contains 5 (five) articles related to geodesy/geomatics engineering disciplines. Some of the articles that we have published in this edition are expected to contribute to the development of geodetic/geomatic engineering disciplines in Indonesia and in East Kalimantan in particular. The editors would like to thank the contributors and partners in this edition of the GETS Journal, some of whom have waited a long time for their articles to be published in the first edition in 2022. Once again, I hope that this journal will be useful for readers and will generate fresh and new ideas for developments in the field of surveying and mapping. The editors also expect input and submission of academic manuscripts and scientific writings that will enrich the repertoire of geodesy and geomatics studies
Arjuna Subject : Ilmu Bumi dan Planet (semua kategori) - Ilmu Bumi dan Planet (Lain-Lain)
Articles 79 Documents
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Pemetaan Kelurahan Pasar Pagi Kota Samarinda Dengan Menggunakan Autodesk Map Andrew Stefano; Sri Endayani
Journal of Geomatics Engineering, Technology, and Sciences Vol. 1 No. 1 (2022): September 2022
Publisher : P3KM Politani Samarinda

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51967/gets.v1i1.2

Abstract

Pesatnya pertumbuhan Kota Samarinda mempengaruhi struktur kota, maka peta kota yang digunakan harus di up to date agar objek baru yang belum tampak di peta bisa terlihat. Peta up to date diperlukan untuk melihat perkembangan kota Samarinda saat ini. Global Positioning System (GPS) dibutuhkan untuk menggambar objek baru yang belum tergambar di peta. Tujuan penelitian ini adalah membuat peta jaringan jalan di Kota Samarinda merupakan salah satu peta yang sering digunakan untuk mendapat informasi lokasi, nama jalan, panjang dan jarak ditempuh pada suatu wilayah. Alat yang digunakan membuatkan peta jaringan jalan di Kota Samarinda adalah GPS Garmin 60 CSX. GPS adalah alat untuk mencari titik koordinat jaringan jalan yang belum tergambar di peta. Penentuan titik koordinat, GPS menerima sinyal dari satelit GPS. Metode yang digunakan dalam menggambar jaringan jalan di Kota Samarinda dilakukan dua tahapan yaitu proses pengumpulan data dan menggambar peta jaringan jalan dengan software Autodesk Map. Proses pengambilan data jaringan jalan dilakukan dengan survei menggunakan GPS. Setelah itu data diolah di komputer dengan menggunakan software Map Source dan Autodesk Map 2008. Survei jaringan jalan berguna untuk mengetahui titik koordinat jaringan jalan yang belum terlihatdi peta. Pada proses penggambaran dapat meng-cross check koordinat dasar yang berasal BIG. Hasil penelitian ini adalah peta up to date yang menginformasikan lokasi, jaringan jalan dan pembangunan yang ada di Kota Samarinda.
Pemanfaatan Google Earth Engine dan Citra Satelit Aqua/Terra Modis untuk Pemetaan Suhu Permukaan Tanah Rata-Rata di Provinsi Kalimantan Timur Tahun 2015-2020 Muhammad Rizki; Nia Kurniadin
Journal of Geomatics Engineering, Technology, and Sciences Vol. 1 No. 1 (2022): September 2022
Publisher : P3KM Politani Samarinda

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51967/gets.v1i1.3

Abstract

Provinsi Kalimantan Timur, secara geostrategis memiliki potensi perdagangan internasional, karena terletak di tengah wilayah Indonesia. Selain itu, penetapan Ibukota Negara dalam wilayah administrasi Provinsi Kalimantan Timur menjadikan provinsi ini sebagai wilayah yang memerlukan perhatian khusus. Pemanasan Global merupakan salah satu isu yang berdampak besar bagi dunia. Peningkatan Suhu Permukaan Tanah (SPT) memberikan kontribusi yang signifikan terhadap faktor tingkat kekeringan yang merupakan dampak dari pemanasan global. Pentingnya informasi SPT sebagai basis data spasial bagi pengelolaan Provinsi Kalimantan Timur. Tujuan dari penelitian ini adalah untuk mengetahui perubahan SPT di Provinsi Kalimantan Timur dari tahun 2015 sampai dengan tahun 2020 menggunakan Citra MODIS. Pengolahan data dilakukan dengan menggunakan Google Earth Engine, dimulai dari pemilihan citra, penentuan waktu dan lokasi, kemudian dilanjutkan dengan pengolahan data. Hasil yang diperoleh kemudian diekspor ke Google Drive untuk diproses lebih lanjut menggunakan ArcGIS untuk proses analisis dan layout peta. Dari pengolahan data citra MODIS menjadi nilai SPT di Provinsi Kalimantan Timur dari tahun 2015 sampai dengan tahun 2020 diperoleh informasi bahwa nilai SPT tertinggi sebesar 30,9oC terjadi pada tanggal 22 September 2015 dan nilai SPT terendah sebesar 23,1oC pada tanggal 24 November 2020.
Geographic Information System Fire Disaster Mapping in Samarinda City Web-Based Muh. Ibnu Fajar; Ida Maratul Khamidah; F. V. Astrolabe Sian Prasetya
Journal of Geomatics Engineering, Technology, and Sciences Vol. 1 No. 1 (2022): September 2022
Publisher : P3KM Politani Samarinda

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51967/gets.v1i1.8

Abstract

One of the problems that are often faced by the fire department at the time of a fire is the obstruction of the main post in determining the PMK assistance post which is deployed in the closest radius to the location of the incident. The purpose of this research is to build a web-based geographic information system that can determine and provide information about the location of fires in Samarinda City. The benefits of this geographic information system for mapping fire disasters can determine and become a source of information for the community and also the Fire Department regarding the location of the fire.
Web-Based Geographic Information System for Hopeful Family Program (HFP) and Non HFP in Handil Bakti Village Linda Linda; Syafei Karim; Eko Junirianto
Journal of Geomatics Engineering, Technology, and Sciences Vol. 1 No. 1 (2022): September 2022
Publisher : P3KM Politani Samarinda

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51967/gets.v1i1.10

Abstract

Handil Bakti Village, Palaran District, Samarinda City is the oldest village in Palaran District, Samarinda City, Handil Bakti Village. The Indonesian government distributes assistance to the lower class community to help ease the burden in daily life. The assistance programs are the Hope Family Program (HFP) and Non HFP. Information and data about the Hope Family Program (HFP) and Non-HFP communities in Handil Bakti Village are very important so that the assistance provided can be right on target and poverty reduction can be achieved. Therefore, it is necessary to have the role of an information system to identify underprivileged communities and poor household data, so that the assistance distributed can be right on the intended target. One of the identification information systems that can be used is the Geographic Information System (GIS). GIS is very efficient in terms of storing, manipulating, analyzing, and displaying geographic data with the help of spatial data and attribute data. From the explanation above, the authors create a system, namely a geographic information system for the Hope Family Program (HFP) and Non HFP data whose purpose is to make it easier for various parties to access information on community data for the Hope Family Program (HFP) and Non HFP anytime anywhere via the internet, because the web can be accessed easily via desktop and mobile devices
Android-Based Geographic Information System Tourism of Samarinda City Aca Al Ahwa; Suswanto Suswanto; F. V. Astrolabe Sian Prasetya
Journal of Geomatics Engineering, Technology, and Sciences Vol. 1 No. 1 (2022): September 2022
Publisher : P3KM Politani Samarinda

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51967/gets.v1i1.11

Abstract

This research is motivated by the tourism potential of Samarinda which is actually very good, but this potential has not been fully utilized by the city government and the private sector. So that people are less interested in traveling in Samarinda. Therefore, the purpose of this research is to build an android-based regional tourism information system for Samarinda City as a source of information to find out what tourist objects are owned by Samarinda City. This study uses spatial data in the form of location coordinates, addresses and non-spatial data as well as supporting information in the form of tourist names, categories, types of tours, addresses. Making this Android-Based Samarinda City Tourism Geographic Information System using Google Maps as a base map. The results of this study are to simplify data management for the general public, the test results of 60% of respondents answered agree, 34% of people answered strongly agree, 4% of people answered less agree, 2% of people answered disagree, 0% of people answered strongly disagree, and the results of the validation test using Pearson's product moment correlation model using SPSS with the number of rcount>rtable all valid data.
Studi Tentang Pemodelan Bangunan Ditinjau Dari Aspek Teknis (Studi Kasus: Bangunan di Daerah Tropis) Andrew Stefano; Sri Endayani
Journal of Geomatics Engineering, Technology, and Sciences Vol. 1 No. 2 (2023): March 2023
Publisher : P3KM Politani Samarinda

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51967/gets.v1i2.14

Abstract

Penyebab pemanasan global adalah meningkatnya emisi CO2 di atmosfer. Kondisi ini menyebabkan bumi semakin panas dan mempengaruhi kehidupan di masa yang akan datang, es di daerah kutub mencair, permukaan laut naik setiap tahun, hingga terciptanya badai angin. Kondisi lingkungan seperti ini dapat membahayakan generasi di masa yang akan datang. Pemakaian listrik dari pembangkit berbahan bakar menggunakan fosil, merupakan salah satu penyebab terjadinya pemanasan global, karena dapat meningkatkan emisi CO2. Bangunan yang didesain tidak memperhitungkan pemakaian listrik, merupakan salah satu kontribusi dalam perusak lingkungan. Kebutuhan listrik tidak dapat dihindari karena pesatnya perkembangan teknologi. Pengaruh iklim luar daerah tropis yang panas berpengaruh ke dalam bangunan, menyebabkan beban pendinginan semakin besar. 40-50% energi listrik dalam bangunan dibutuhkan untuk proses pendinginan ruang (Air Conditioner), presentasi ini akan semakin besar kalau iklim di luar semakin panas. Usaha penghematan listrik pada skala bangunan dengan cara mentraitment konfigurasi arsitekturnya. Penyebab panas pada bangunan 80% berasal dari luar bangunan dengan mempertimbangkan desain sistem penerangan, pendinginan dan kulit bangunan. Dapat mencapai 70% pengurangan penggunaan listrik dengan penstimulasian antara model bangunan yang respond dan tidak terhadap lingkungan. Lebih hemat lagi 30-40% bila desain bangunan melibatkan penggunaan unsur tanaman dan air. Penelitian menegaskan bahwa aspek desain bangunan sangat berpengaruh terhadap penggunaan energi listrik, dan berkontribusi pada kepedulian terhadap pemanasan global dunia.
Identifikasi Luasan Banjir Rob di Kota Semarang Pada Tanggal 24 Mei 2022 Menggunakan Citra Landsat Andi Nur Rahman; Nia Kurniadin; Romansah Wumu; Shabri Indra Suryalfihra
Journal of Geomatics Engineering, Technology, and Sciences Vol. 1 No. 2 (2023): March 2023
Publisher : P3KM Politani Samarinda

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51967/gets.v1i2.16

Abstract

  Tidal floods are floods that occur as a result of sea tides that inundate areas that have a lower elevation than sea level. The occurrence of tidal floods is due to sea level rise caused by tides, external forces such as water, wind, or swell (waves caused from a long distance), and storms which are natural phenomena that often occur at sea. A tidal flood in Semarang City on May 23, 2022, occurred with a height of 1.5 meters, occurred in the Tanjung Emas Port area. This tidal flood became the most severe flood in 2022. The utilization of remote sensing technology by using Landsat satellite imagery can be maximized to obtain information about tidal flood events that occurred in the city of Semarang. The purpose of this study was to find out how to identify the area of flooding using Landsat 8 and Landsat 9 imagery using the NDWI method and to determine the extent of the tidal flood that occurred on May 24, 2022, by comparing the wettability values of satellite imagery before and after the tidal flood. The results obtained are in the form of changes in the area of water bodies due to tidal flooding on the north coast of Semarang City in the Tugu sub-district 39.982 Ha; West Semarang 16.765 Ha; North Semarang 5.174 Ha; East Semarang 0.104 Ha; and Genuk 33.393 Ha.
Analisis Spasial Temporal Klorofil-a Perairan Ponelo Kepulauan Provinsi Gorontalo Tahun 2018-2022 Menggunakan Data Landsat 8 Romansah Wumu; Nia Kurniadin; Shabri Indra Suryalfihra
Journal of Geomatics Engineering, Technology, and Sciences Vol. 1 No. 2 (2023): March 2023
Publisher : P3KM Politani Samarinda

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51967/gets.v1i2.17

Abstract

Indonesia's maritime area covers approximately 3.25 million km2, which means that 70% of Indonesia's total area is comprised of the ocean. This indicates the enormous potential that Indonesia's ocean holds. The ocean is a crucial resource for the Ponelo Islands community, whose main livelihood is fishing. The marine ecosystem is vulnerable to environmental changes and pollution. Chlorophyll-a can serve as an indicator of the health of marine waters. Mapping the distribution of chlorophyll-a on the ocean's surface can be achieved through remote sensing technology. The study utilized the Nuriya Algorithm (2010) to derive the chlorophyll-a content in surface waters using Landsat-8 data from 2018-2021. Data processing is done through Google Earth Engine (GEE) which has the ability to process large amounts of data quickly (Big Data). The findings indicate an increase in chlorophyll-a content in the waters of Ponelo Islands at the beginning (DOY 0-20) and end (DOY 300-325) of the year. On a spatial scale, the average chlorophyll-a is widely distributed in the waters of Ponelo but is more concentrated in the coastal areas. This indicates that coastal areas of the Ponelo Islands may be more vulnerable to pollution and environmental changes and require special attention in environmental management and marine ecosystem conservation efforts.
Perbandingan Pengolahan Data Foto Udara Menggunakan Perangkat Lunak Agisoft Metashape Professional dan APS Menci Ardiansyah Ardiansyah; Shabri Indra Suryalfihra; Dawamul Arifin; F. V. Astrolabe Sian Prasetya
Journal of Geomatics Engineering, Technology, and Sciences Vol. 1 No. 2 (2023): March 2023
Publisher : P3KM Politani Samarinda

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51967/gets.v1i2.20

Abstract

Photogrammetry is a method of mapping objects on the earth's surface using aerial photographs as a medium. Orthophoto is a product of photogrammetry. Utilization and processing of aerial photo data are increasingly widespread with the support of various adequate software. This study aims to process aerial photo data and determine differences in the quality of orthophotos produced from Agisoft Metashape and APS Menci software. In this study, 714 aerial photo data were taken using the DJI Phantom 3 pro drone, and 9 Ground Control Points were obtained from static measurements using the Comnav T300 Geodetic GPS, processed using the Agisoft Metashape and APS Menci software, starting from Georeferencing, DEM Making, DTM, Editing Semalines, and Orthophoto. The results obtained from this study visually produce orthophotos that have different lighting. APS Menci is brighter than Agisoft Metashape. In addition, there is also a difference in the area of 9.1 Ha from orthophoto where Agisoft Metashape produced 64.61 Ha while APS Menci was 55.51 Ha. The GSD (Ground Sampling Distance) value of Agisoft Metashape is 4.12 cm and APS Menci is 4.2 cm. From the results of the orthophoto semantic quality test obtained from the interpreter it gives a Level 7 score on the NIIRS (National Imagery Interpretability Rating Scale) based on the IRARS (Imagery Resolution Assessment and Reporting Standards) table, where the resulting orthophoto can detect steps on stairs. It is recommended to use the Agisoft Metashape software for better results and speed of use.
Geographic Information System of Farmer Group and Area in Samarinda City Web-Based Pratirta Pratirta; Eko Junirianto; F. V. Astrolabe Sian Prasetya
Journal of Geomatics Engineering, Technology, and Sciences Vol. 1 No. 2 (2023): March 2023
Publisher : P3KM Politani Samarinda

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51967/gets.v1i2.21

Abstract

Presenting geographic data information by using a GIS (Geographical Information System), GIS is an organized series of hardware, software, geographic data, and personnel designed to efficiently obtain, store, update, manipulate, analyze, and display all forms of geographically referenced information. The difficulty of finding the location of the Farmers Group the Department of Agriculture of the City of Samarinda, it is very important to know the location, especially when the service will hold agricultural counseling for faster delivery of information, therefore an appropriate use of technology is needed to provide accurate information. The purpose of this study is to provide convenience to users in finding locations, finding routes to locations, and other information about farmer groups and their lands in the city of Samarinda. Based on the case studies in this study, it can be concluded that the author will build a web-based geographic information system for mapping farmer groups and their lands in the city of Samarinda.

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