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1

Gozal, Ricki, and Dedi Trisnawarman. "SISTEM INFORMASI GEOGRAFIS PEMETAAN TEMPAT PEMBUANGAN SEMENTARA." Jurnal Ilmu Komputer dan Sistem Informasi 8, no. 1 (January 1, 2020): 143. http://dx.doi.org/10.24912/jiksi.v8i1.11486.

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Анотація:
Geographic Information System (GIS) is a computer based system used to storing and manipulating geographic information. GIS can also merge data, manage data, and analyze data and produce an output to support a decision making.The purpose of this thesis is to make a GIS application that maps a location of each temporary dumpsite in Jakarta. The development of this GIS is using System Development Life Cycle (SDLC) method includes of Planning, Analyze, Design, and Implementation. This GIS will using ArcGIS program to make a map of the temporary dumpsite's location. The output would be showed with map of temporary dumpsite distribution with ArcGIS, and the output will embedded to a website.
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2

Karman, Joni, and Hardi Mulyono. "Perancangan Sistem Informasi Geografis Lokasi Objek Wisata Di Kota Lubuklinggau Berbasis Android." J-SAKTI (Jurnal Sains Komputer dan Informatika) 3, no. 2 (September 13, 2019): 411. http://dx.doi.org/10.30645/j-sakti.v3i2.160.

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Анотація:
The Problem In Finding and acces a tourism location in Lubuklinggau, be a primary problem, Especially for tourism or visitoe or tourism from other place in Indonesia. We know that the technology more being advance, but this case make we to improve our potency in Lubuklinggau. Hopely this application which will be made, will appliance the web technology service, in order to the information about tourism will be up to date and to solve this problem the researcher use digital map model approach or SIG based on Android by using Google Maps as the map digital. The method which used in tihs research is UML (Unifide Modelling Language), PHP Program, Java and database Mysql as the data saving geografic information system (GIS) tourism has two programs they are, administration programe for processing tourism data base on web and programe for the user, we use Android aplication. Geografic information system has a goal to give an easy and faster information about tourism in Lubuklinggau
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3

Susanto, Arief. "Sistem Informasi Geografis Berbasis Web Digitasi Persil Bangunan." Systemic: Information System and Informatics Journal 1, no. 1 (August 1, 2015): 20–28. http://dx.doi.org/10.29080/systemic.v1i1.280.

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Анотація:
Geographic Information Systems ( GIS abbreviated as Geographic Information System ) is a specialized information system that manages data having spatial information . Most to process data in the form of GIS data are still many who use desktop application or can only run on one computer while the more advanced development requires us to produce information more easily is to develop a GIS online ( via the Internet ) and can be accessed Anywhere You . This application is designed using DFD modeling and created using the programming language PHP with MySQL database as well as utilizing Google Map API . As well as to facilitate the collection of data by the field of local government development . Moreover , the existence of GIS aims to help local governments in the search for building plots parcels and ownership of data previously not been structured to be more structural and facilitate spatial data collection .
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4

Henderi, Henderi, Andrian Saputra, and Didik Setiyadi. "Model sistem informasi geografis pariwisata menggunakan reuse method." Jurnal Ilmiah Matrik 22, no. 2 (August 10, 2020): 232–40. http://dx.doi.org/10.33557/jurnalmatrik.v22i2.1000.

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Анотація:
Information about tourism sites in Tangerang Regency is inadequate. Tourists have difficulty in obtaining information about tourist attractions. This study propose a model of tourism geographic information system (GIS) to make help tourists to find and obtain information about tourism in Tangerang Regency easier. In this research, activities consist of two stages, namely: data collection and system design. Data collection activities carried out by observation, interviews, and literature study. While the GIS model is designed with Unified Modeling Language, reuse method, and prototype. The final result of this research is a model of tourism geographic information system in the form of use case diagrams, activity diagrams, class diagrams and prototype user interfaces. The test results showing that the model produced has a score of 72.1 with a good predicate. This shows that the resulting model is in accordance with needs and can be used as a basis in building a tourist geographic information system.
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5

Era Alfansyuri, and Indra Farni. "Pengelolaan DAS Kota Padang Berbasiskan Sistem Informasi Geografis." Jurnal Ilmiah Poli Rekayasa 11, no. 1 (October 15, 2015): 24. http://dx.doi.org/10.30630/jipr.11.1.16.

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Анотація:
Changes in soil physical and socio-economic life of the people Padang City be the cause of a decrease the condition of the watershed (DAS). Catchment area management can be done through an assessment of the components of a watershed both spatial and attribute in a system that is comprehensive and and done with integrated management. Preparation of physical watershed data done by utilizing the technology of Geographic Information Systems (GIS) in which GIS has the ability to perform the presentation of data DAS and spatial analyzes to look at the ability of the DAS.
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6

Sahrun, Nori, and Sularno Sularno. "Rancang Bangun Sistem Informasi Geografis Menemukan Lokasi Dokter Hewan Berbasis Android." Jurnal Teknologi Dan Sistem Informasi Bisnis 5, no. 1 (February 2, 2023): 21–32. http://dx.doi.org/10.47233/jteksis.v5i1.732.

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Анотація:
Geographic information systems (GIS) have the ability to connect various data at certain points on earth, combine, analyze, and finally map the results. Data will be processed in GIS spatial data which is geographically and location oriented data that has a certain coordinate system, as a basic reference. So the GIS application can answer several questions such as; location, conditions, trends, patterns and modeling. This capability distinguishes GIS from other information systems. By building a geographical information system it is hoped that it can help the public to find out where the location of veterinarians in the city of Padang is based on Android. So that people can more easily find the location of veterinarians in the city of Padang quickly and accurately that can be accessed via cell phones (Smartphones). In this geographic information system making additional application programs used are MapInfo, Android Studio, and other supporting applications.
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7

Adhar, Adhar, Irwan Lakawa, and Sufrianto Sufrianto. "Sistem Informasi Geografis Kerusakan Jalan Berbasis Web." Sultra Civil Engineering Journal 2, no. 2 (December 9, 2021): 90–98. http://dx.doi.org/10.54297/sciej.v2i2.196.

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Анотація:
According to the North Buton Regency Public Works and SpatialPlanning Agency in the Central Statistics Agency (2020), in the NorthButon Regency area there are still many roads that are slightlydamaged or heavily damaged, the road damage is a very complexproblem. The losses and impacts suffered are enormous for the roadusers, while mapping and research, especially on road conditions,are still lacking attention. Recognizing the need for information onroad damage that can display the condition of provincial roads inNorth Buton Regency, the information system that will be displayedin the form of a digital map based on Geographical InformationSystem (GIS) is more effective in providing visualization of roaddamage data, road conditions and reports of road damage,especially on provincial roads in North Buton Regency.The research objectives are: (1) To analyze the level of damage toprovincial roads in North Buton Regency. (2) Knowing the WEBbased Geographical Information System Damage to ProvincialRoads in North Buton Regency.The results of the analysis and discussion carried out resulted in thelevel of damage to the Provincial Roads in North Buton Regencyusing the PCI (method Pavement Condition Index)along 12 km whichis divided per 300 meters into 40 segments. With the average valueof 65 in the condition(Good)and then with a geographic informationsystem (GIS) based WEB, data showed damage to the weathering ofthe surface as much as 31%, the hole as much as 39%, Cracksextends as much as 4%, Weathering granules off as much as 13% ,Block crack by 2%, Bleeding as much as 9% and Amblast by 2%.
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8

Hamidi, Hamidi. "APLIKASI SISTEM INFORMASI GEOGRAFIS BERBASIS WEB PENYEBARAN DANA BANTUAN OPERASIONAL SEKOLAH." JURNAL MASYARAKAT INFORMATIKA 2, no. 3 (March 20, 2012): 1–14. http://dx.doi.org/10.14710/jmasif.2.3.2643.

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Анотація:
Geographic Information System (GIS) on web mapping form is one of new technology in developing web applications for spatial data processing. This system, is capable of spatial data and attribute data analyzing, thus it makes user easier in using this information system. Nowadays web mapping technology not only used for spatial problems solving, but also for data analyzing. The use of GIS are in the fields of medical, politic, social, electricity, engineering etc. This research was a development of web based GIS for dissemination funding assistance for school operational ( Bantuan Operasional Sekolah = BOS) which this system was made by map server and chameleon for web mapping application. This GIS in dissemination of BOS funds program produces spatial analyzing as dissemination of BOS funding map.
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9

Dwi Utami Putra, Desak Made, and Putu Sugiartawan. "Sistem Informasi Geografis Tata Guna Lahan di Kabupaten Sleman." Jurnal Sistem Informasi dan Komputer Terapan Indonesia (JSIKTI) 1, no. 3 (March 31, 2019): 175–84. http://dx.doi.org/10.33173/jsikti.32.

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Анотація:
Geographical Information System (GIS) is a computer-based system that has the ability to store, manipulate, analyze and re-display natural conditions with the help of spatial data and non-passive data (attributes). GIS also supports decision making in planning and management, land use, natural resources, and others. Land use is very important as the development of land that has the potential for a type of plant to prevent damage to the plants and land used. Sleman Regency has a vast and fertile plantation area and has a wet tropical climate, which affects plant fertility. With the many things that affect the type of plant for a particular land, a system that can display spatial and nonspatial information is needed that relates to land use in Sleman Regency.
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10

Tambengi, Nikel, and Joyce Christian Kumaat. "Pemetaan Sebaran Daerah Asal Mahasiswa Universitas Negeri Manado Berbasis Sistem Informasi Geografis." Jurnal Episentrum 1, no. 3 (December 15, 2020): 1. http://dx.doi.org/10.36412/jepst.v1i3.2353.

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Анотація:
The need for information regarding the spatial distribution of the area of origin of students who are currently studying at the Manado State University (UNIMA) is very important because the information built can provide useful input for planning, development, or evaluation. So that the distribution of the areas of origin of students who are studying at UNIMA can be mapped properly, an information system based on Geographical Information Systems (GIS) can be built according to its geographic location. This study aims to create and present information about the spatial distribution of students from UNIMA through GIS. Quantitative type research methods with a spatial analysis approach (spatial analysis) using secondary data. Data analysis techniques through Geographical Information Systems (GIS) to create a digital map of the spatial distribution of student origin using OpenStreetMap and Quantum GIS Zanzibar 3.8.1. The results showed that the spatial distribution of the area from which UNIMA students used GIS, made it easier to present information through digital maps. The information system created can display the distribution data of the student's area of origin, namely the number of students from each province in Indonesia and especially in the form of a distribution map. The largest distribution of student origin came from North Sumatra Province with 1,209, followed by South Sulawesi Province with 893 and North Maluku Province with 650 students.
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11

Mutalazimah, M., Bana Handaga, and Agus Anggoro Sigit. "Aplikasi Sistem Informasi Geografis pada Pemantauan Status Gizi Balita di Dinas Kesehatan Kabupaten Sukoharjo." Forum Geografi 23, no. 2 (December 20, 2009): 153. http://dx.doi.org/10.23917/forgeo.v23i2.5008.

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Анотація:
The research was conducted to develop the information system model on nutrition status of child monitoring based on geographical information system (GIS) to support the plan of increasing the nutrition improvement at the District Health Office, Sukoharjo Regency. This descriptive research was carried out by implementing interview to subjects who were involved in the activity of the monitoring. Observation was also performed to two objects, namely the structure and the procedure of information. The collected data were analyzed descriptively by applying result of structure and the procedure analysis. The system development was designed by using the approach of FAST (Framework for the Application of System Techniques). The observation to the problem, scope, and property had been conducted by the interview with the subjects indicate that the research subjects at all levels from top managers to persons in the transactional level as well as those who are at cross section department support the development of monitoring system to the improvement of nutrition status program, and this system is reliable to mapping perform of nutrition status of child based on the category as severe malnutrition, under nutrition, normal and overweight. In the future nutrition information based on GIS have the benefits of the new system in supporting the monitoring activity toward the nutrition improvement program and it also supports the plan. Suggestions from this research might go to the government health institution to develop spatial or terrestrial data on the health programs have to be designed GIS for the each other program. Moreover, the other model should be developed GIS in the other spatial data and information can be accessed by informative map.
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12

Sutejo, Sutejo. "Pemodelan UML Sistem Informasi Geografis Pasar Tradisional Kota Pekanbaru." Digital Zone: Jurnal Teknologi Informasi dan Komunikasi 7, no. 2 (November 24, 2016): 89–99. http://dx.doi.org/10.31849/digitalzone.v7i2.600.

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Анотація:
Abstrak- Dunia sistem informasi terdapat banyak model sistem informasi, kaitan pasar dengan sistem informasi geografis adalah untuk memberikan berbagai macam informasi, terutama letak geografis pasar tersebut. Pentingnya informasi ini memberi banyak inspirasi terhadap pembuat model untuk merancang sistem-sistem yang mendekati dunia nyata. Model sistem informasi juga diharapkan dapat digunakan sebagai alat prediksi kejadian di masa depan dengan mendasarkan pada data yang ada pada masa lalu dan masa sekarang. Sistem Informasi Geografis (SIG) ini di rancang untuk mengumpulkan data, meyimpan dan mengubah data, serta menganalisis objek beserta data geografis yang bersifat penting untuk di analisis. GIS yang disajikan dengan berbasis web pada perancangan ini juga dapat digunakan sebagai alat pemberian informasi kepada masyarakat luas. Hasil penelitian dengan pemodelan UML (Unified Modelling Language) sangat membantu dalam proses perancangan sebuah sistem informasi geografis pasar tradisional serta aplikasi sistem informasi geografis pasar tradisional berbasis web ini dapat digunakan sebagai sarana informasi pasar, khususnya bagi para calon pedagang yang ingin berdagang di salah satu pasar tradisional yang ada di Kota Pekanbaru. Kata Kunci : Sistem Informasi Geografis, Web, Pasar Tradisional, Pemodelan, UML. Abstract- The world of information systems provides many models of information systems, the link of market with a geographic information system is to provide various kinds of information, specially the geographical markets. The importance of this information gives a lot of inspiration for the model makers to design systems that approximates the real world. Model of information system is also expected to be used as predictors of future events by basing on the existing data on past and present. Geographic Information Systems (GIS) is designed to collect data, store and modify data, and analyzing object along with geographic data which is important for analysis. GIS is presented with a web based on this design can also be used as a tool to provide information to the general public. The results of research by modeling UML (Unified Modeling Language) is very helpful in the process of designing a geographic information system of traditional markets as well as the application of geographic information system web-based traditional market can be used as a means of market information, especially for potential traders who want to trade in one of the traditional markets in the city of Pekanbaru. Keywords: Geographic Information Systems, Web, Traditional Market, Modeling, UML.
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13

Saputra, Yoga, Abrar Hiswara, and Rafika Sari. "Sistem Informasi Geografis Lokasi Kualitas Air Pada PDAM Patriot Bekasi." Journal of Students‘ Research in Computer Science 1, no. 2 (November 30, 2020): 165–78. http://dx.doi.org/10.31599/jsrcs.v1i2.407.

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Анотація:
The digital information technology as humans today is a very important thing. Clean water is a basic human need that is met, so the need for a web-based Geographic Information System (GIS) as a digital information media about service requirements, sub-district boundaries, residential buildings, existing pipelines and locations of air quality specifically PDAM Tirta Patriot Bekasi city. The system development method used is the waterfall model. Data collection is a method of interview, observation, study of literature. The system design uses UML, the system is built using the PHP programming language, Javascript, with a MySQL database, on system testing with Blackbox Testing. Converting vector data into GeoJSON on the Quantum GIS application. It is hoped that this can help the PDAM Tirta Patriot of the City of Bekasi in providing information requested services, sub-district boundaries, housing buildings, pipelines in the distribution of clean air to the community, then provide information to customers of the Tirta Patriot City of Bekasi in viewing the point location of water quality in 3 housing complexes with the highest number of customers of PDAM Tirta Patriot of Bekasi City, Results that are in accordance with the service location and district area of the City of Bekasi, residential buildings, existing pipelines, and the location of the customer complaint water point from GIS information based on customer satisfaction survey data. Keywords: Geographic Information System, PDAM, Waterfall, Google Maps, OpenStreetMap. Abstrak Kebutuhan akan teknologi informasi digital sebagai manusia zaman sekarang merupakan hal pokok yang sangat diperlukan. Air bersih merupakan suatu kebutuhan yang mendasar manusia sebagai kelangsungan hidupnya, maka perlu adanya Sistem Informasi Geografis (SIG) berbasis web sebagai media informasi peta digital mengenai cakupan layanan, batas wilayah kecamatan, bangunan perumahan, jaringan pipa existing dan lokasi kualitas air khususnya PDAM Tirta Patriot Kota Bekasi. Metode pengembangan sistem yang digunakan model waterfall. Pengumpulan datanya yaitu metode wawancara, observasi, studi pustaka. Perancangan sistem menggunakan UML, sistem ini dibangun menggunakan bahasa pemrograman PHP, Javascript, dengan basis data MySQL, pada pengujian sistem dengan Blackbox Testing. Konversasi data vektor ke dalam GeoJSON pada aplikasi Quantum GIS. Yang diharapkan ini bisa membantu PDAM Tirta Patriot Kota Bekasi dalam menyajikan informasi cakupan layanan, batas wilayah kecamatan, bangunan perumahan, jaringan pipa existing dalam distribusi air bersih kepada masyarakat, kemudian memberikan informasi pada pelanggan PDAM Tirta Patriot Kota Bekasi dalam melihat titik lokasi kualitas air di 3 perumahan dengan jumlah pelanggan terbanyak PDAM Tirta Patriot Kota Bekasi, Hasil yang ditampilkan berupa peta cakupan layanan dan wilayah kecamatan Kota Bekasi, bangunan perumahan, jaringan pipa existing, dan lokasi titik air keluhan pelanggan dari informasi GIS berdasarkan data survei kepuasan pelanggan. Kata kunci: Geographic Information System, PDAM, Waterfall, Google Maps, OpenStreetMap.
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14

Hariah, Hariah, Muh Rusli Said, and Muammar Muammar. "Sistem Informasi Geografis (GIS) Pada Desa Sumarrang Berbasis Website." Journal Peqguruang: Conference Series 2, no. 1 (May 30, 2020): 444. http://dx.doi.org/10.35329/jp.v2i1.1273.

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Анотація:
Teknologi Sistem Informasi Geografis (SIG) atau juga dikenal sebagai Geographic Information System merupakan perangkat lunak geospasial menggabbungkan antara informasi unsur peta yang ada didalamnya, teknologi SIG yang akhir – akhir ini mengalami perkembangan seiring dengan perkembangan teknologi yang dirancang untuk mendapatkan, analisa, perencanaan, mengolah dan meneliti permasalahan. melalui merancangan dan pembuatan sistem informasi geografis pemetaan desa dibuat agar dapat penampilkan gambaran peta desa wilayah Sumarrang sehingga lebih menarik sistem ini di sajikan dalam bentuk Web. Aplikasi Sistem Informasi Geografis dirancang dengan bantuan Google Maps API dengan bahasa pemrograman HTML, PHP, JavaScript, dan CSS. Hasil dari penelitian ini dapat menampilkan keadaan desa serta komponen-komponen dalam Desa Sumarrang seperti Dusun, Rumah ibadah, Sekolah, Rumah, Kantor Desa, wisata, serta Profil Desa. Pemetaan di desa Sumarrang masih dilakukan secara manual.
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15

Nur, Sri Khaerawati, Sukardi, and Kevin Maitano. "SISTEM INFORMASI GEOGRAFIS PEMETAAN BENCANA ALAM DI PROVINSI SULAWESI TENGAH." Jurnal Indonesia : Manajemen Informatika dan Komunikasi 4, no. 1 (January 10, 2023): 129–39. http://dx.doi.org/10.35870/jimik.v4i1.132.

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Анотація:
Natural disaster is an event related to natural phenomena that causes damage to a location on a small to large scale. According to data from the National Disaster Management Agency (BNPB), the number of disasters that occurred in Central Sulawesi in 2016–2020 totaled 251 cases. Determining the location of natural disasters will be one of the factors to facilitate government access in solving problems. Until now, the government does not have a Geographic Information System (GIS) in the form of mapping the location points of natural disasters that have occurred. Based on the problems above, a website-based information system was created, namely "Geographical Information System for Mapping the Central Sulawesi Natural Disaster. The aim is to provide information to the public, so that it can facilitate agencies in distributing information to the public in finding disaster information. Based on the results of the analysis using GIS using a questionnaire, the average results of the two variables were obtained, with an assessment of the first variable of 81.8% and the second variable of 89.4%. The average value of the two variables leads to a very good opinion,
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16

Mujabuddawat, Muhammad Al. "Perangkat Sistem Informasi Geografis (SIG) dalam Penelitian dan Penyajian Informasi Arkeologi." Kapata Arkeologi 12, no. 1 (December 29, 2016): 29. http://dx.doi.org/10.24832/kapata.v12i1.319.

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Анотація:
Archaeology is closely associated with spatial or spatial aspects. Because the material archeological data such as artifacts, features, buildings, and sites containing the inherent spatial information in order to keep the data context. The themes of the archaeological research nowadays often reconstructing the spatial aspects of history and culture. Device Geographic Information System (GIS) is clearly greatly assist the process of archaeological research both in the field and during the process of analysis and presentation of information related to the results of the research. GIS has become the main choice for researchers to update the development of archeology that have been all-digital, practical, and effective. Although the use of GIS in archaeological research is very popular in many countries, in fact the use of GIS in archaeological research in Indonesia is still not that popular. This paper presents the use of GIS tools that allowed to be applied by archaeologists that can be adopted in the analysis and presentation of information and research results, conditions of application of GIS in the current archaeological research, as well as the constraints faced. This paper shows that recently the archaeologists in Indonesia is very enthusiactic in using the GIS for the effective spatial analysis tools. The government is also concerned about the importance of GIS in mapping the spatial data of heritage as well archaeological research locations in order to support the acceleration of One Map Policy.Ilmu arkeologi sangat erat kaitannya dengan aspek keruangan atau spasial. Karena materi data arkeologi seperti artefak, fitur, bangunan, dan situs mengandung informasi spasial yang melekat agar tidak kehilangan data konteksnya. Tema-tema penelitian arkeologi dewasa ini tidak sedikit yang bertemakan aspek spasial dalam merekonstruksi sejarah dan budaya. Perangkat Sistem Informasi Geografis (SIG) jelas sangat membantu proses penelitian arkeologi baik di lapangan maupun saat proses analisis dan penyajian informasi terkait hasil penelitian semacam itu. SIG menjadi pilihan bagi peneliti arkeologi dalam mengikuti perkembangan dunia riset yang serba digital, praktis, dan efektif. Walaupun penggunaan perangkat SIG dalam penelitian arkeologi sangat populer di banyak negara, namun kenyataannya penggunaan perangkat SIG dalam penelitian arkeologi di Indonesia belum cukup polpuler. Penelitian ini menyajikan penggunaan perangkat SIG yang memungkinkan diterapkan oleh peneliti arkeologi yang dapat membantu dalam proses analisis dan penyajian informasi hasil penelitian, kondisi penerapan perangkat SIG di dalam penelitian arkeologi saat ini, serta kendala-kendala yang dihadapi. Penelitian ini menunjukkan bahwa dewasa ini perhatian peneliti arkeologi di Indonesia terhadap peran SIG cukup terbuka mengingat kebutuhan perangkat analisis spasial yang efektif. Pemerintah juga menaruh perhatian akan pentingnya SIG dalam memetakan data spasial Cagar Budaya dan Lokasi penelitian arkeologi dalam rangka mendukung percepatan kebijakan One Map Policy atau kebijakan Satu Peta.
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17

Noviyanti, Cica, Wati Erawati, and Hendra Lesmana. "Rancang Bangun Pemetaan UMKM Kota Tegal Berbasis Sistem Informasi Geografis." Indonesian Journal on Software Engineering (IJSE) 6, no. 1 (June 8, 2020): 56–63. http://dx.doi.org/10.31294/ijse.v6i1.8101.

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Анотація:
Abstract: Rapid technological development, the website has become a mandatory media for every agency, company and organization, especially in conveying information to the wider community. MSMEs have an important role in the success of national economic development and are also able to absorb a lower middle class workforce. Likewise, MSMEs in Tegal City, have now become pillars of the economic growth of the people of Tegal City. The City of Tegal MSMEs presents data on the profile of MSMEs that are still conventional and difficult to find, both in location and profile. Geographical Information Systems (GIS) should have been implemented at this time, by utilizing GIS, investors, customers and the wider community will easily get the MSME information. MSME MSMEs Tegal City was designed using the Waterfall method with a Website platform using the PHP programming language and Mysql database. The hope is that this Tegal City SME GIS can become a media of information, promotion to achieve competitiveness in this globalization era.Keywords: Geografis Information System, MSMEs, WaterfallAbstrak: Perkembangan teknologi kian pesat, website sudah menjadi media wajib bagi setiap instansi, perusahaan dan organisasi khususnya dalam menyampaikan informasi kepada masyarakat luas. UMKM mempunyai peranan enting dalam mensukseskan pembangunan ekonomi nasional dan juga mampu menyerap tenaga kerja kelas menengah ke bawah. Begitu pula UMKM di Kota Tegal, kini sudah menjadi pilar pertumbuhan perekonomian masyarakat Kota Tegal. UMKM Kota Tegal penyajian data profil UMKM masih konvensional dan sulit dicari baik lokasi maupun profilnya. Sistem Informasi Geografis (SIG) seharusnya sudah diterapkan saat ini, dengan memanfaatkan SIG maka investor, customer dan masyarakat luas akan mudah mendapatkan informasi UMKM tersebut.. SIG UMKM Kota Tegal dirancang menggunakan metode Waterfall dengan platform Website menggunahakan bahasa pemrogramman PHP dan database Mysql. Harapanya agar SIG UMKM Kota Tegal ini dapat menjadi media informasi, promosi untuk memcapai daya saing di era globalisasi ini.Kata kunci: Sistem Informasi Geografis, UMKM, Waterfall
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Ady Aryanto, I. Komang Agus, and Ni Made Ika Marini Mandenni. "Sistem Informasi Geografis Letak Puskesmas di Wilayah Kabupaten Tabanan Berbasis Web." JTIM : Jurnal Teknologi Informasi dan Multimedia 1, no. 4 (February 18, 2020): 294–301. http://dx.doi.org/10.35746/jtim.v1i4.70.

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Technology is used as a tool in everyday life to accelerate the resolution of a problem one ofwhich is the design of Geographic Information Systems (GIS).The purpose of this study is tohelp collect and store data and analyze objects and geographical data to support decisionmaking in planning a mapping of the route search location to the nearest clinic that can helpthe community in Tabanan Regency. Using a Geographic Information System (GIS) allows itwill help the community in solving the problem of finding the location of the nearest clinicbecause in the presence of a GIS it will illustrate the location of the Clinic where the actualconditions are. The system built can display map data and data from the map can also bechanged dynamically. Here you will get a visualization of the location of the location in a webform so that it can be accessed anywhere and the information can be used as a reference fordecision makers, especially in the search for transportation routes that can be traversed to theclinic location is located. In addition, the information contained in the GeographicInformation System can be processed to provide a new discourse in the presentation ofgeographic information online that is equipped with data analysis in the form of images,descriptions and other attribute analysis. This research resulted in a program for Web-BasedGeographic Information System for Clinical Location Search in Tabanan Regency, which isable to display maps effectively with information. This process makes use of existing librarieson Google Maps combined with the Web Mapping process.
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Zulfachmi, Angger Andrea Amanda, and Dedy Jauhari. "Sistem Informasi Geografis (Sig) Properti Di Kota Tanjungpinang Berbasis Website." Jurnal Bangkit Indonesia 8, no. 1 (March 3, 2019): 39–47. http://dx.doi.org/10.52771/bangkitindonesia.v8i1.156.

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Анотація:
The increasing need for property in Tanjungpinang City is very growing, especially in the housing sector. Selection of property based on location and facilities and infrastructure is always a consideration for the community in making decisions to buy a property. Difficulty finding property location information in a certain area often occurs, resulting in people not getting references about the properties offered in Tanjungpinang City. The purpose of this research is to create a web-based geographic information system (GIS) regarding the distribution of the number of properties on offer, especially in Tanjungpinang City using a web-based mapping approach. In the development of Property GIS the author uses the Waterfall method and in the analysis of system requirements it is modeled with UML (Unified Modeling Language) and implemented with the PHP programming language and MySQLI database. It is hoped that the results of making this property's geographic information system can help the public to find out information about the distribution of properties offered, such as the location of property coordinates, addresses, prices, property photos, property specification data and property developer data.
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Fatmasari, Ni Made Mila, I. Putu Agus Swastika, and Nengah Widya Utami. "Sistem Informasi Geografis Peternakan Ayam Pada Kabupaten Jembrana Berbasis Website." Kumpulan Artikel Mahasiswa Pendidikan Teknik Informatika (KARMAPATI) 10, no. 2 (August 16, 2021): 228. http://dx.doi.org/10.23887/karmapati.v10i2.37051.

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This thesis proposal discusses the difficulties of chicken buyers to get information on chicken farms in Jembrana Bali, and the limited information obtained, currently complete information on farm layout in Jembrana Regency, only exists at the Jembrana District Animal Husbandry Service, then chicken breeders are also it is still difficult to provide information about their layout due to the limited means of adequate information in each village. So a chicken farm geographic information system was created with the aim of helping chicken buyers, livestock raisers and the Chicken Farming Service to get information on chicken breeding in Jembrana Regency more easily.Keywords— livestock, chicken, GIS, Website, Jembrana
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Sahrun, Nori, Sularno Sularno, and Faras Khairi Edwar. "SISTEM INFORMASI GEOGRAFIS SPBU DI KOTA PADANG BERBASIS MOBILE." Jurnal Teknologi Dan Sistem Informasi Bisnis 2, no. 1 (January 31, 2020): 1–9. http://dx.doi.org/10.47233/jteksis.v2i1.80.

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The benefits of the gas station are not only for filling fuel for vehicles, but also can provide great benefits for the community, especially drivers or visitors to the gas station with the facilities available at the gas station. However, not all people know the location of gas stations in all areas in this part of the city of Padang, so the lack of information about the location and facilities of each gas station can make it difficult for motorists who may forget to fill up fuel before traveling or going to other areas and do not know where they are. Gas stations in the area he visited. Of the many gas stations in Padang, only a few can be remembered by the community. Maybe we can only remember gas stations that we often pass.It is expected that the building of a Geographic Information System displays the location of gas stations and the facilities of each gas station, so that users who are merely looking to find out the facilities at the gas stations can find out
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Abas, Mohamad Ilyas, and Rizal Lamusu. "PERANCANGAN SISTEM INFORMASI GEOGRAFIS STATISTIK KEPOLISIAN (SIGAP) KABUPATEN GORONTALO." Jurnal Ilmu Komputer (JUIK) 1, no. 2 (October 31, 2021): 30. http://dx.doi.org/10.31314/juik.v1i2.1099.

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At this time the need for fast, precise and accurate data must be done easily using adequate information technology. The purpose of this research is to make an innovation about the police, both for police administration, crime data, accident-prone and other police data, both in the form of structured data and statistical forms. This system also provides convenience in visualization using a Geographic Information System (GIS) map that displays geographic information on crime data and accident-prone areas so as to provide data information to the police and the public in particular. The system development method used is research and development. This method is very good in developing the system systematically from start to finish at the maintenance stage. The results of this study, in addition to providing a geographic visual display, also provide convenience in terms of information and police statistics in Gorontalo Regency.
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Taufik, Taufik, Moch Assidieq, Rosdiana Rosdiana, Sumarlin Sumarlin, Aryani Adami, Tia Dwi Irawandani, Ilham Ilham, and Dwiprayogo Wibowo. "Prediksi Gas Karbon Monoksida (CO) dari Sumber Kendaraan Bermotor dengan Metode Gaussian Line Source Berbasis Sistem Informasi Geografis." Jurnal Sumberdaya Alam dan Lingkungan 9, no. 3 (December 1, 2022): 91–101. http://dx.doi.org/10.21776/ub.jsal.2022.009.03.2.

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Prediksi persebaran gas CO dari sumber transportasi di salah satu jalan arteri primer Kota Kendari menjadi fokus uji coba dalam penelitian ini untuk menentukan konsentrasi polusi udara menggunakan metode gaussian model line source (GMLS). Metode ini merupakan cara unik untuk menganalisis persebaran gas CO yang dikombinasikan dengan metode geographic information system (GIS) kemudian dibandingkan terhadap hasil konsentrasi yang diperoleh dengan baku mutu Peraturan Pemerintah Indonesia No. 22 Tahun 2021 dan visualisasi menggunakan aplikasi GIS. Fokus kajian penelitian dilakukan di Jalan M.T. Hariyono Kota Kendari-Sulawesi Tenggara dengan menghitung volume kendaraan, analisis konsentrasi gas CO, dan pemodelan menggunakan GIS. Berdasarkan hasil pengamatan volume lalu lintas di Jalan arteri primer M.T. Hariyono Kota Kendari menunjukkan bahwa jumlah kendaraan bermotor yang melintas di pagi hari sebanyak 3103 unit/jam (07.00-08.00 WITA), siang hari sebanyak 2,227 (12.00-13.00 WITA), dan sore hari sebanyak 2996 (16.00-17.00 WITA). Jumlah kendaraan tersebut menyumbangkan laju emisi gas CO pada pagi hari sebesar 18,157.06 μg.(m.s)-1, siang hari sebesar 13,982.83 μg.(m.s) -1, dan sore hari sebesar 18,493.33 μg.(m.s) -1. Berdasarkan perhitungan dengan finite length line source (FLLS) turunan dari metode GMLS, persebaran konsentrasi gas CO paling tinggi terletak pada tepi jalan (roadside) sebesar 5,838.84 μg.(Nm3)-1 kondisi pagi hari, 4,496.5 μg.(Nm3)-1 pada siang hari, dan 5,946.96 μg.(Nm3)-1 pada sore hari dengan kondisi kecepatan angin rata-rata 2.1 m.s-1 dan arah angin dari barat laut (315°) ke tenggara (135°). Analisis spasial dengan pemodelan SIG menunjukkan wilayah sebaran dampak dari pencemaran gas CO menuju daerah sekitar ruas jalan raya.
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Dewi, Nur Setiawati, Artika Nurrahima, and Panji Wisnu Wirawan. "Pengembangan Desain Perencanaan Sistem Informasi Geografis sebagai Alternatif Pembelajaran dalam Keperawatan Kesehatan Komunitas." Holistic Nursing and Health Science 2, no. 1 (June 5, 2019): 22–30. http://dx.doi.org/10.14710/hnhs.2.1.2019.22-30.

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Introduction: The learning process of nursing students faced complexity problems, particularly in community health nursing course. There is no latest information technology application that addresses are impacted to the educational problems of undergraduate and professional nursing program. An unclearly visualization of the data assessment of community nursing care provide distresses for lecturer and nursing student. Geographic Information Systems (GIS) provide a detail visualization that related to health problems in the community. This study aims to provide a visualization about the development of GIS that may become an alternative learning for nursing students.Methods: This article describes the part of action research process. Five nursing students and two lecturers of community health nursing were recruited. The data collection was conducted by interview and observation for data assessment in the first step of development of GIS application.Results: There were four steps of making of GIS application, which is divided into four steps, including need analyzing, application design planning, the diagram of data flow, and application description.Conclusion: The GIS has benefit for learning process, some policies are necessary to mediate the development and application of GIS for nursing students in community health nursing course.
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Kurniawan, Kurniawan, and Darius Antoni. "Visualisasi Data Penduduk Dalam Membangun E-government Berbasis Sistem Informasi Geografis (GIS)." Jurnal Sisfokom (Sistem Informasi dan Komputer) 9, no. 3 (August 25, 2020): 310. http://dx.doi.org/10.32736/sisfokom.v9i3.828.

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Kelurahan 16 Ulu is one of the areas in the city of Palembang which has an area of 475 Ha and consists of several RT. Citizen data collection is the main task of a RT head. The process of managing citizen data by the head of the RT at Kelurahan 16 ulu is still using manualmethod so to get and search information about citizen spread point and data mapping cost a lot of time cause the data still in family card, and the data not yet in mapping state. To solve this problem, it needs visually show the mapping based on Geographic Information System (GIS). GIS is able to manage data that have spatial references for purposes related to mapping and planning. The resulting mapping visualization is in the form of E-government based on GIS. So that it can help to find out the citizen spread point and improve effectiveness and performance in service to the citizen.
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Suryani, Ade Irma, Arief Rahmadian Aswin, and Imamul Khabibi. "Sistem Informasi Geografis Jaringan Tiang Listrik dan Trafo Pada PT. PLN (Persero) Rayon Tabing." Indonesian Journal of Computer Science 7, no. 1 (August 4, 2018): 101–11. http://dx.doi.org/10.33022/ijcs.v7i1.77.

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PT. PLN (Persero) Rayon Tabing is a company that serves the distribution of electrical power throughout the customer which is included in the scope of rayon tabing. This streaming system is assisted by a distribution tool that is a transformer. Research conducted at PT. PLN (Persero) Rayon Tabing, found the problems that serve as the basis in the writing of this thesis is Geographic Information System of Electric Pipelines and Trafo. GIS has the ability to provide information and display in map form. Currently the information about the transformer data map obtained is still a manual map, only limited to the image display and location plan without including a database that shows the attributes of each object. Therefore it is necessary to have GIS easily digested and mutually integrated both for personnel involved in PLN party and society. The method used in this research is by interview, observation. GIS is designed using Google Maps API and PHP Programming Language and MySQL Database. By using internet connection, GIS is able to help PLN to find the location of the transformer and the information needed.
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Medyawati, Henny, Budi Setiawan, Ega Hegarini, and Imam Ahmad Trinugroho. "Pembuatan Prototipe Aplikasi Distribusi Pangan Berbasis Sistem Informasi Geografis (SIG)." Jurnal Nasional Teknologi Terapan (JNTT) 2, no. 3 (May 8, 2019): 276. http://dx.doi.org/10.22146/jntt.44944.

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Food distribution and supply chain are the main problems to achieve food security in Indonesia. Geographical gaps, poor transportation systems and social differences in Indonesia induce a high complexity challenges to implement a perfect distribution system that can suitable with Indonesia characteristic. The purpose of this research is building a prototype for food distribution application using geographical information system (GIS) that can be implemented in Indonesia. GIS can visualize the entire data layer into a map which is easier to analyze. Indonesia consists of 34 provinces that spread over many island, each has specific geographical profile and transportation problems. This can be used as data layers with other instruments which related with food distribution in Indonesia. Building a food distribution application prototype is part of developing food distribution system which produce prototype of the system. Prototyping approach is being used to evaluate the designing result of GIS with analyzing features for food distribution in Indonesia. Final result for this research is an application that can be implemented into food distribution system that can create a stable food security in Indonesia, for all of the provinces.
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Cheng, Min-Yuan, Hsing-Chih Tsai, Li-Chuan Lien, and Chun-Hung Kuo. "GIS-BASED RESTORATION SYSTEM FOR HISTORIC TIMBER BUILDINGS USING RFID TECHNOLOGY/GIS PAREMTA ISTORINIŲ RĄSTINIŲ PASTATŲ RESTAURAVIMO SISTEMA TAIKANT RFID TECHNOLOGIJĄ." JOURNAL OF CIVIL ENGINEERING AND MANAGEMENT 14, no. 4 (December 31, 2008): 227–34. http://dx.doi.org/10.3846/1392-3730.2008.14.21.

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Using geographic information system (GIS) and other established technologies, this paper develops an information management system that integrates graphic and non‐graphic data to enhance the effectiveness of historic building restoration work in Taiwan. Radio frequency identification (RFID) is used to permit real‐time tracking of assembly components and thus enhance restoration management efficiency. Restoration data stored in the memory of RFID tags can be changed and updated according to the needs of a specific restoration phase. The use of RFID handheld readers both improves data collection efficiency and system mobility. In the developed system, timber structure restoration data and drawings in the GIS can be accessed online immediately for use in the restoration process and to help advise strategic design, construction, and management decisions. Data of each timber element, including restoration sequence, restoration contractors, supervisors, evaluated strength capacity etc can be retrieved remotely through a handheld PDA reader‐writer used onsite. Data of component construction sequence during disassembly or re‐assembly, critical to project success, can be transmitted in a synchronized manner to the developed host system to achieve a level of accuracy and reliability significantly greater than that typically achieved using traditional reconstruction management approaches. Santrauka Taikant geografinę informacinę sistemą (GIS) ir kitas technologijas, straipsnyje plėtojama informacinė valdymo sistema, integruojanti grafinius ir negrafinius duomenis, didinanti istorinių pastatų restauravimo efektyvumą Taivane. Sudedamiesiems komponentams stebėti realiajame laike taikomas radijo dažnių identifikavimas (RFID), taip didinant restauravimo valdymo efektyvumą. Saugomi RFID ženklių atmintyje restauravimo duomenys gali būti keičiami ir atnaujinami pagal specifinės restauravimo fazės reikmes. Taikant RFID delninius skaitytuvus gerėja tiek duomenų kaupimo efektyvumas, tiek sistemos mobilumas. Sukurtoje sistemoje rąstų statinio restauravimo duomenys ir piešiniai (brėžiniai) geografinėje informacinėje sistemoje gali būti iš karto pasiekiami kompiuteriniu tinklu ir taikomi restauravimo procese bei padėti strategiškai projektuojant, konstruojant, taip pat ir valdymo sprendimams priimti. Kiekvieno rąsto elemento duomenys, restauravimo seka, restauravimo vykdytojai, prižiūrėtojai, stiprybių galimybės ir kita gali būti pasiekiami nuotoliniu būdu su delniniu PDA skaitytuvu-rašytuvu darbo vietoje. Komponentų konstravimo eilės tvarkos išmontuojant ar sumontuojant duomenys gali būti sinchroniškai perduodami sukurtai valdančiai sistemai siekiant daug didesnio tikslumo ir patikimumo lygio, nei įprastai pasiekiama taikant tradicinius restauravimo valdymo taikymus.
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Widiatry, Widiatry, Devi Karolita, and Febriliana Febriliana. "RANCANG BANGUN SISTEM INFORMASI GEOGRAFIS SARANA PENDIDIKAN DAN KESEHATAN BERBASIS WEB DI WILAYAH KABUPATEN GUNUNG MAS." Jurnal Teknologi Informasi: Jurnal Keilmuan dan Aplikasi Bidang Teknik Informatika 9, no. 2 (August 31, 2015): 22–30. http://dx.doi.org/10.47111/jti.v9i2.1439.

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GIS technology (Geographic Information Systems) is a technology that has the geographicalhighly developed that has the ability to visualize spatial data. Implementing GIS technology is indispensablein the management and use of data in terms of geographic information as a means of mapping a location.In writing this report will discuss about how to build a Geographic Information System (GIS) forweb-based education and health facilities in the district of Gunung Mas on BAPPEDA office. GIS is madeusing the method of UML-Based Web Engineering (UWE) which consists of four steps, namelyRequirements Model (Use Case Model), Content Model (Conceptual Model), Model Navigation andPresentation Model.With the presence of GIS is expected to help facilitate the office BAPPEDA in managinggeographic information regarding education and health facilities in the district of Gunung Mas.
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Naibesi, Maria Graciana. "SISTEM INFORMASI GEOGRAFIS PEMETAAN BUDIDAYA UDANG PADA DINAS KELAUTAN DAN PERIKANAN PROVINSI NTT." HOAQ (High Education of Organization Archive Quality) : Jurnal Teknologi Informasi 13, no. 2 (December 31, 2022): 91–97. http://dx.doi.org/10.52972/hoaq.vol13no2.p91-97.

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Shrimp (Caridea) is the main commodity htat is most enjoyed as food, because the meat is savory and very much loved by many people. East Nusa Tenggara Province is one of the provincein indonesia. Indonesia which covers the eastern part of the Nusa Tenggara Islands. East Nusa Tenggara Province has a capital city in kupang city and has 22 districts. East Nusa Tenggara Povince is located in sunda kecil. In 2020, the population of East Nusa Tenggara Province is 5,325,566 people, with a density of 111 people/km². the province of East Nusa Tenggara, the capital city of kupang, is geographically located at 8-12º south latitude and 118-125º east longitude. The problem found at the department of marine affairs and fisheries of east Nusa Tenggara Province is thet the information about the distribution of shrimp around the sea in the Province of east Nusa Tenggara is not sufficient so that a geographic information system is needed that can help the community and fishermen around to find out about the development of GIS- based technology to map shrimp farming at the department of marine affairs and fisheries of East Nusa Tenggara Province. This study aims to produce a GIS- based information system that is expected to assist the department of marine affairs and fisheries in collecting shrimp culture data so that shrimp mapping information is very accurate. The application used in this research is Quantum GIS. With this information system, it is hoped that it will provide a geograihic information system regarding GIS-based shrimp farming in order to provide integrated information and data collection taken by the authors of the department of marine affairs and fisheries of East Nusa Tenggara Province. In addition, to provide convenience, in finding the location pf the shrimp ponds related to finding out information about the services provided. Ktenna used in mapping shrimp in East Nusa Tenggara Province.
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Hardianto, Roki, Fajrizal Fajrizal, and Yuvi Darmayunata. "PELATIHAN MENGGUNAKAN SISTEM INFORMASI GEOGRAFIS LOKASI LEMBAGA SWADAYA MASYARAKAT DI KESBANGPOL PEKANBARU." Jurnal Pengabdian Masyarakat Multidisiplin 3, no. 2 (March 23, 2020): 78–85. http://dx.doi.org/10.36341/jpm.v3i2.1006.

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Анотація:
Community Service is carried out at the Office of National Unity and Politic (Kesbangpol) of Pekanbaru City, in the form of training of Pekanbaru Kesbangpol operators in managing Geographical Information System (GIS) on the mapping of registered and registered LSM. This dedication is a follow up to the research on the making of a Geographic Information System (GIS) on the mapping of LSM. It is hoped that by using this system, the data recording process of LSM registered at Kesbangpol will be more integrated and easily accessible to the public as mandated by the Law. This dedication is a form of real collaboration between the Faculty of Computer Science, University of Lancang Kuning with government agencies in this case the Kesbangpol Pekanbaru Office.
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Nelfira, Nelfira, Heru Saputra, and Silis Jelita. "Sistem Informasi Geografis Pemetaan Titik Daerah Rawan Kecelakaan di Sumatera Barat Berbasis Web." Indonesian Journal of Computer Science 7, no. 1 (August 4, 2018): 1–18. http://dx.doi.org/10.33022/ijcs.v7i1.55.

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Geographic Information System (GIS) is a system designed to work with spatially coordinated data or geographical coordinates. Based on West Sumatra Police Traffic data, there are 48 points of accident-prone areas in West Sumatra. This leads to the need for an accident-prone SIG in West Sumatera that is web-based to describe the map of vulnerable area locations along with the required information. Disaster information system appli-cations using this web using JavaScript and PHP programming language, and using MySql database and Google Maps Fire. The method used in this research is the method used by using. (UML) with stages consisting of system, system analysis, system design, and system implementation. The end result of this research is the creation of web-based GIS application that can present accident-prone location information in West Sumatra online and can be accessed easily.
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Aji, Ridho Catur Novi, and Pristi Sukmasetya. "Kajian Literatur Pemanfaatan Sistem Informasi Geografis Untuk Pariwisata Indonesia." Jurnal Ilmiah Sistem Informasi (JISI) 1, no. 2 (October 31, 2022): 37–51. http://dx.doi.org/10.24127/jisi.v1i2.3174.

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The tourism sector as an economic activity has become a potential mainstay and development priority for a number of countries. Especially for developing countries such as Indonesia which has a large area potential with a large enough tourist attraction. The potential of tourism in Indonesia stretches widely from the Province of Nangroe Aceh Darussalam to the Province of Papua with all the diversity of tourism objects, arts and culture and the availability of tourism supporting facilities and infrastructure that are capable of driving the people's economy. So that the number of tourists continues to increase and does not experience saturation of tourist objects, there needs to be development in the tourism sector. The purpose of this study was to determine the distribution of natural and cultural tourism in Indonesia. To achieve this goal, research methods are used by mapping the distribution of natural and cultural tourism in Indonesia, by plotting the tourist sites. In order to determine the distribution of natural and cultural tourism in Indonesia, descriptive research methods are used by describing maps. From this description, it is necessary to have an information system that provides information about tourist sites in Indonesia. One of the presentations of this tourism information is through displaying in the form of data or information related to geographical conditions in the territory of Indonesia, this system is often known as the Geographic Information System (GIS). The existence of a geographic information system will provide an alternative convenience for the public to find information about tourist locations and information in Indonesia and provide convenience to the Department of Culture and Tourism in Indonesia in processing data on information on tourist locations in Indonesia.
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Dali Ansa, Sri Devi, Jhonson Efendi Hutagalung, and Rohminatin Rohminatin. "Sistem Informasi Geografis Sebaran Lokasi Titik Peternakan Di Dinas Peternakan Kabupaten Asahan." JUTSI (Jurnal Teknologi dan Sistem Informasi) 2, no. 1 (June 10, 2021): 135–40. http://dx.doi.org/10.33330/jutsi.v2i1.1153.

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Abstract:The potential for livestock in Asahan district is very good. Besides the situation and conditions there are supportive, the geographic location of Asahan Regency also supports the District Animal Husbandry Office in the livestock sector because the area mostly covers land, so that the Asahan District Animal Husbandry Service staff in the field of livestock can help potential types of livestock based on certain areas. In addition, officers can also classify livestock birth data by district in order to increase the potential of existing livestock. The potential of livestock in Asahan district is not well managed and there is no informative mapping and monitoring that utilizes modern computer technology. Mapping and monitoring cannot be done because there is no education about the geographic information system and monitoring of the Asahan District Animal Husbandry Office and the current system is still conventional, so information about livestock does not reach the wider community, especially the Asahan area which results in a lack of knowledge. and information on the distribution of existing livestock. Therefore, the solution to increase public insight and knowledge of the potential of livestock in Asahan, a geographic information system and monitoring will be made to map the number of points of livestock distribution. Keywords: GIS, Distribution of Farm Point Locations, PHP and MySQL Abstrak: Potensi ternak di kabupaten Asahan sangat bagus. Selain situasi dan kondisi disana mendukung, letak geografis kabupaten Asahan pun juga mendukung untuk Dinas Peternakan Kabupaten bidang peternakan dikarenkan wilayahnya sebagian besar meliputi daratan, sehingga petugas Dinas Peternakan Kabupaten Asahan bidang peternakan dapat membantu jenis ternak yang berpotensi berdasarkan wilayah tertentu. Selain itu petugas juga bisa mengelompokkan data kelahiran ternak per kecamatan guna meningkatkan potensi ternak yang ada.Potensi ternak di kabupaten Asahan tidak dikelola dengan baik dan belum ada pemetaan yang informatif serta monitoring yang memanfaatkan teknologi komputer modern. Pemetaan dan monitoring belum bisa dilakukan dikarenakan belum adanya edukasi tentang sistem informasi geografis dan monitoring terhadap pihak kantor Dinas Peternakan Kabupaten Asahan dan sistem yang dijalankan saat ini pun masih konvensional, sehingga informasi tentang ternak tidak sampai ke masyarakat luas khususnya wilayah Asahan yang berdampak pada minimnya pengetahuan dan informasi terhadap sebaran hewan ternak yang ada. Oleh karena itu solusi untuk meningkatkan wawasan dan pengetahuan masyarakat terhadap potensi ternak yang ada di Asahan, maka akan dibuatkan sistem informasi geografis dan monitoring untuk memetakan jumlah titik sebaran ternak. Kata Kunci : GIS, Sebaran Lokasi Titik Peternakan, PHP dan MySQL
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Suwanti, Nurita, and Usman. "SISTEM INFORMASI GEOGRAFIS (SIG) PEMETAAN LOKASI PENJAHIT PAKAIAN DI KOTA TEMBILAHAN BERBASIS WEB." JURNAL PERANGKAT LUNAK 3, no. 3 (October 31, 2021): 84–97. http://dx.doi.org/10.32520/jupel.v3i3.1694.

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Currently, there are many information systems that are used to support and solve a problem that usually arises in an organization, company or government agency. One of them is Geographic Information System (GIS) technology which has developed rapidly. Where this system can be a means for delivering information on the location of the location, especially those related to the business of tailoring clothes. This geographic information system for mapping the location of the tailor's location aims to analyze, design and build a geographic information system for mapping the location that can convey information on the location of the tailor, convey complete information about the tailor's location so that it can be spread thoroughly to the public or system users, provide useful information to the public in the process of finding the location of tailors in Tembilahan city based on precise and accurate data. In designing the GIS mapping of the tailor's location, Waterfall is a system development method that functions as a mechanism to identify software, as well as UML (Unified Modeling Language) as modeling, and uses the PIECES method to facilitate researchers in building systems. With the geographical information system mapping the location of this tailor, the delivery of information about the tailor's place can be spread thoroughly to the community or system users. Keywords: System, Information, Geographic Information System, Tailor,WebGis.
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Hamida, Fakhryza Nabila, and Hasti Widyasamratri. "RISIKO KAWASAN LONGSOR DALAM UPAYA MITIGASI BENCANA MENGGUNAKAN SISTEM INFORMASI GEOGRAFIS." Pondasi 24, no. 1 (August 1, 2019): 67. http://dx.doi.org/10.30659/pondasi.v24i1.4997.

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ABSTRACTIndonesia is an area prone to landslides. The occurrence of this landslide disaster can cause a large impact such as damage and loss both material and non-material. The availability of complete and accurate information in controlling land use in landslide prone areas in the development of an area becomes very important in minimizing the loss of life and losses, both physical, social and economic. This information must be disseminated to the community as an early warning system in disaster mitigation efforts. Identification of the characteristics of landslide prone areas requires a risk mapping of landslide prone areas in efforts to mitigate disasters can be done using Geographic Information Systems (GIS). The results in this study indicate the need to identify disaster risk in detail because basically, an area threatened by disaster does not necessarily mean that each community has the same level of disaster risk. Mapping can be done by clustering or by identifying each building in a vulnerable area based on the level of risk of landslides. Keywords: risk analysis, landslides, disaster mitigation, GIS ABSTRAKIndonesia merupakan wilayah yang rawan terhadap bencana longsor. Terjadinya bencana longsor ini dapat menyebabkan dampak yang besar seperti kerusakan dan kerugian baik materiil maupun non materiil. Tersedianya informasi yang lengkap dan akurat dalam pengendalian pemanfaatan lahan di kawasan rawan bencana longsor dalam pengembangan suatu wilayah menjadi hal yang sangat penting dalam meminimalisir adanya korban jiwa dan kerugian-kerugian baik fisik, sosial maupun ekonomi. Informasi tersebut harus disebarkan kepada masyarakat sebagai sistem peringatan dini dalam upaya mitigasi bencana. Identifikasi karakteristik daerah rawan longsor diperlukan sebuah pemetaan risiko kawasan rawan longsor dalam upaya mitigasi bencana dapat dilakukan menggunakan Sistem Informasi Geografis (SIG). Hasil dalam penelitian ini menunjukkan perlunya identifikasi risiko bencana secara detail karena pada dasarnya, suatu kawasan yang terancam bencana belum tentu tiap masyarakatnya mempunyai tingkat risiko bencana yang sama. Pemetaan dapat dilakukan dengan pengklusteran maupun dengan identifikasi setiap bangunan dalam kawasan rawan berdasarkan tingkat risiko terhadap bencana tanah longsor.Kata Kunci: analisis risiko, tanah longsor, mitigasi bencana, GIS
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Dwi Agung Pramono. "SEBARAN JENIS TANAH DI SUB DAERAH ALIRAN SUNGAI KARANG MUMUS MENGGUNAKAN SISTEM INFORMASI GEOGRAFIS." Jurnal Teknologi Informasi Universitas Lambung Mangkurat (JTIULM) 1, no. 2 (December 13, 2016): 60–72. http://dx.doi.org/10.20527/jtiulm.v1i2.9.

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The development of Geographic Information System (GIS) in the present can be used to provide information of a physical condition of the region. The information presented varies greatly depending on the purpose of making the GIS, although not 100% perfect, but has been widely used to replace information retrieval through field surveys that take longer and relatively more expensive, so that many people who seek information using Information Systems Geographically, one of them is to find information about the distribution of soil types. The research belongs to field research, and laboratory research and spatial analysis. Field research in question is the process of this research activity to observe the land physically, laboratory research is a research activity conducted by using the process of observation of soil samples taken from the field and then analyzed in the laboratory. Spatial analysis of data through Geographic Information System (GIS) method to give description of soil condition in study area. In terms of variables, the research can be classified type of descriptive research, where researchers take samples to create a picture of the situation or events with no previous treatment. The results of research based on spatial analysts in the study area are land type associations of Tropudults; Dystropepts of 28,673.81 Ha or about 89.5% of the Karang Mumus Watershed area. While the association Tropaquepts; Fluvaquents; Tropohemist is the smallest of 1,261.82 ha or about 3.9% of the Karang Mumus Watershed area, in addition to the Tropudults association; Tropaquepts has an area of 2,115.91 Ha or 6.6%.
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Efendi, Fery S., Abidatul Izzah, and Sudarmaji Sudarmaji. "SISTEM INFORMASI GEOGRAFIS UNTUK PENDATAAN SEBARAN SATWA LANGKA DI INDONESIA." Teknologi 6, no. 1 (January 1, 2016): 55. http://dx.doi.org/10.26594/teknologi.v6i1.561.

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ABSTRAK Indonesia adalah negara yang memiliki banyak variasi satwa yang tersebar di seluruh kepulauan dan memiliki keanekaragaman yang berbeda-beda. Namun, pada kenyataannya, kekayaan ini tidak diimbangi dengan kepedulian dan keingintahuan masyarakat mengenai keberadaan dan kelestariannya. Hal ini dapat disebabkan karena media yang menampung informasi satwa ini sangatlah sedikit. Jika hal ini dibiarkan berlarut-larut, maka lama kelamaan keberadaan satwa tersebut akan menjadi punah. Dengan demikian diperlukan sebuah media yang mampu merekam data sebaran satwa yang di lindungi di Indonesia. Data satwa ini dapat berupa nama ilmiah dan lokasi satwa tersebut dipelihara. Oleh karena itu penelitian ini mengimplementasikan Sistem Informasi Geografis (SIG) berbasis Google API sebagai media yang mampu mendata sebaran satwa yang dilindungi oleh pemerintah Indonesia. Adanya SIG yang dapat merepresentasikan sebaran data satwa dalam bentuk peta dapat memudahkan pengaksesan informasi dan menampilkan lokasi mengenai sebaran satwa langka di Indonesia. SIG yang dibangun dalam penelitian ini memiliki tiga user yaitu administrator, lembaga konservasi yang berperan sebagai kontributor, dan masyarakat sebagai pengunjung web. Fitur yang dimiliki oleh SIG ini antara lain adalah fitur pencarian informasi satwa, pencarian lokasi satwa langka, dan penanda lokasi pada map.Kata kunci: Google API, Satwa Langka, Sistem Informasi Geografis. ABSTRACT Indonesia is a country that has a lot of variety of animals. In fact, they are scattered throughout the islands and has a big diversity in them. However, the wildlife animals were not a concern of the public at all. It can be caused by media that holds the information of this animal is not well. If this is allowed to drag on, then over time the number of these animals will become extinct. Because of this, it is needed to build a media that capable to recording data or information about the distribution of wildlife in Indonesia. This information can be their scientific name and where they lived. Therefore, this study implements a Geographic Information System (GIS) based Google API as a media that is able to record the distribution of species protected by the Indonesian government. GIS can presents the distribution of animals in maps. The SIG can be used by three users, that is administrator, conservation organizations as a contributor, and society as a web visitor. The features that we can use are searching wildlife information, searching location of endangered species, and marking location on the maps.Keywords: Geographic Information Systems, Google APIs, Rare Animals.
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39

Hermawan, Heri. "Model Aplikasi Sistem Informasi Geografis Untuk Monitoring Lahan Kritis." Jutisi : Jurnal Ilmiah Teknik Informatika dan Sistem Informasi 10, no. 3 (December 16, 2021): 463. http://dx.doi.org/10.35889/jutisi.v10i3.713.

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<p>Abstrak. Rekaman data berbasis aplikasi Microsoft Excel tidak efektif dalam akses dan penyajian kembali data untuk melakukan monitoring lahan kritis. Paper ini menyajikan model Sistem Informasi Geografis untuk monitoring lahan kritis, dengan penggunaan data longtitude dan attitude sebagai basis untuk menampilkan peta lahan kritis wilayah pedesaan berdasarkan warna. Pengembangan sistem aplikasi mengikuti tahapan-tahapan dalam model pengembangan berbasis Prototyping, menggunakan bahasa pemrograman PHP dan Framework Codeigniter, serta Database MysQLi. Hasil uji fungsionalitas dengan BlackBox Testing menunjukkan Sistem Aplikasi GIS yang dikembangkan telah sesuai dengan fungsifungsi utama yang diharapkan pada analisis kebutuhan pengguna yaitu: dapat digunakan untuk menyajikan data/informasi dalam bentuk peta spasial yang menampilkan masing-masing wilayah desa dan data tingkat kekritisan lahan seperti kritis, tidak kritis, agak kritis dan sangat kritis. Icon warna pada peta dijadikan sebagai simbol untuk melihat lokasi desa. Dengan mengklik icon Keterangan data pos, data statistik berupa nilai lahan kritis dan data spasial berbentuk grafik akan disajikan.</p><p>Kata kunci: Monitoring, Lahan Kritis, Sistem Informasi Geografis, Metode Prototyping <br /> <br />Abstract. Data recording based on Microsoft Excel application is not effective in accessing and presenting data for monitoring critical land. This paper presents a Geographic Information System model for monitoring critical land, using longtitude and attitude data as the basis for displaying a map of critical land in rural areas based on color. The development of the application system follows the stages in a Prototyping-based development model, using the PHP programming language and the CodeIgniter Framework, as well as the MySQL Database. The results of the functionality test with BlackBox Testing show that the GIS Application System developed is in accordance with the main functions expected in the user needs analysis, namely: it can be used to present data/information in the form of a spatial map that displays each village area and land criticality level data. such as critical, uncritical, somewhat critical and very critical. The color icon on the map is used as a symbol to see the location of the village. By clicking on the Post data description icon, statistical data in the form of critical land values and spatial data in the form of graphs will be presented.</p><p>Keywords: Monitoring, Critical Land, Geographic Information System, Prototyping Method</p>
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40

Sastrawan, I. Gede G., and I. Nyoman Yudi Anggara Wijaya. "Sistem Informasi Geografis Pasar Tradisional Berbasis Web di Wilayah Kabupaten Badung." Jurnal Ilmu Komputer dan Teknologi 1, no. 1 (May 28, 2020): 1–4. http://dx.doi.org/10.35960/ikomti.v1i1.507.

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Abstract— Traditional markets are a place for sellers of basic necessities produced by small and medium scale economic actors. The need for information on traditional markets for the community in Badung Regency is a very important instrument considering the very limited information about traditional markets such as market location information, market commodities and other information that is beneficial to the community. Lack of complete information makes some traditional markets in Badung Regency not yet well known. By utilizing information technology such as web-based geographic information systems, it can provide complete traditional market information to the public who want to know the traditional markets that are in the vicinity. The existence of this geographic-based information system is expected to be one of the solutions for data processing and information on traditional markets in Badung Regency, namely by building a web-based Geographic Information System (GIS) where in the system there are also market information and important information relating to traditional markets in the Badung regency. The software development carried out in this study uses the Waterfall method. This method is also called the Classic Life Cycle method. Called the Waterfall method because the first stage must be passed and finished first to be able to proceed to the next stage.
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41

Ritonga, Heri Syahputra, Deci Irmayani, and Ramadhani Pane. "SISTEM INFORMASI GEOGRAFIS (GIS) PADA RUMAH SAKIT DI KABUPATEN LABUHANBATU BERBASIS WEB." JURTEKSI (Jurnal Teknologi dan Sistem Informasi) 7, no. 2 (April 20, 2021): 227–35. http://dx.doi.org/10.33330/jurteksi.v7i2.1089.

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Abstract: Geographical information system (GIS) is a tool with computer and android systems used to map conditions and events that occur on earth. With the current mapping system's capabilities, it can be used by the community. There are still few people who know the hospitals around them, especially with people outside the district. They have to ask the local community to find out the location of the hospital. With a system designed to provide convenience through determining the hospital location points that are available on the system. The data collection process and methods using the waterfall method. Testing this geographic information system with BlackBox. Someone searches Al-Aziz hospital data by selecting the al-Aziz hospital symbol contained in the system. A detailed menu will appear on the symbol so that it provides information about the hospital address, the schedule for opening and closing of the clinic, the name of the doctor, receiving PBJS health patient services, and the doctor's practice schedule at Al-Aziz Hospital. Keywords: Blackbox Testing; Hospital; Location; Waterfall method; Webgis Abstrak: Sistem Informasi Geografis (SIG) adalah alat komputer dan sistem android yang digunakan untuk memetakan kondisi dan peristiwa yang terjadi di bumi. Dengan kemampuan sistem pemetaan yang ada saat ini dapat dimanfaatkan oleh masyarakat. Masih sedikit masyarakat yang mengetahui rumah sakit di sekitar mereka, terutama yang berada di luar kabupaten. Mereka harus meminta masyarakat sekitar untuk mengetahui lokasi rumah sakit tersebut. Dengan sistem yang dirancang untuk memberikan kemudahan melalui penentuan titik lokasi rumah sakit yang tersedia dalam sistem. Proses dan metode pengumpulan data menggunakan metode waterfall. Uji sistem informasi geografis ini dengan BlackBox. Seseorang mencari data rumah sakit Al-Aziz dengan memilih simbol rumah sakit al-Aziz yang terdapat dalam sistem. Pada simbol ini akan muncul menu detil sehingga memberikan informasi mengenai alamat rumah sakit, jadwal buka tutup klinik, nama dokter, penerimaan pelayanan pasien kesehatan PBJS, dan jadwal praktek dokter di RS Al-Aziz. Kata kunci: Blackbox Testing; Lokasi; Rumah sakit; Waterfall; Webgis
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Zulkarnain, Raja, and Abdullah Abdullah. "Sistem Informasi Geografis Pemetaan Pabrik Sawit di Kabupaten Indragiri Hilir." SISTEMASI 6, no. 1 (May 3, 2018): 8. http://dx.doi.org/10.32520/stmsi.v6i1.7.

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Sistem Informasi Georafis atau Georaphic Information Sistem (GIS) merupakan suatu sistem informasi yang berbasis komputer, dirancang untuk bekerja dengan menggunakan data yang memiliki informasi spasial (bereferensi keruangan). Sistem ini mengcapture, mengecek, mengintegrasikan, memanipulasi, menganalisa, dan menampilkan data yang secara spasial mereferensikan kepada kondisi bumi. Sektor perkebunan merupakan salah satu tulang punggung perekonomian Kabupaten Indragiri Hilir. Berbagai komoditas tanaman perkebunan yang telah dikembangkan selama ini adalah kelapa lokal, kelapa hibrida, kelapa sawit, karet, kopi, coklat dan pinang. Dari berbagai komoditas itu, kelapa lokal merupakan primadona. Sistem Informasi Geografis Pabrik mampu memberikan informasi-informasi yang dibutuhkan mengenai pemetaan sebuah lokasi pabrik khususnya Kabupaten Indragiri Hilir karena diakses melalui jaringan internet.
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Akbar, Ali. "Pengembangan Sistem Informasi Geografis Wisata Daerah Sukabumi Dengan Menggunakan Metode Waterfall Berbasis Mobile pada Android." INFORMATION SYSTEM FOR EDUCATORS AND PROFESSIONALS : Journal of Information System 7, no. 1 (December 14, 2022): 1. http://dx.doi.org/10.51211/isbi.v7i1.1837.

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Pertumbuhan Pariwisata di Indonesia sangat tinggi dan daerah yang memiliki potensi pariwisata tersebar di seluruh wilayah. Salah satu wilayah yang menunjukan tingkat kegiatan ekonomi pariwisata adalah sukabumi. Berdasarkan data dari BPS bahwa terjadi peningkatan tingkat kunjungan wisata ke wilayah sukabumi yang mencapai hampir 100% setiap tahun sejak 2015 hingga 2018. Namun, daerah sukabumi masih memiliki kekurangan informasi tentang lokasi wilayah pariwisata dan cara menuju lokasi wisata karena sebagian wilayah pariwisata sukabumi masih minim transportasi umum untuk menuju lokasi tersebut, sehingga dibutuhkan informasi yang dapat membantu wisatawan untuk menuju lokasi tersebut. Kebutuhan sistem informasi geografis (SIG) tentang Sukabumi ini menjadi sangat penting untuk memudahkan para wisatawan. Pada saat wisata berpergian dibutuhkan informasi tentang tempat wisata tersebut, seperti tempat untuk tinggal sementara atau hotel, pengisian bahan bakar (SPBU), maupun tempat makan kuliner di Sukabumi. Dengan adanya permasalahan tersebut, maka diperlukan sebuah solusi dalam mencari informasi tentang daerah wisata Sukabumi. Dalam pengembangan aplikasi digunakan metode metode pengembangan Waterfall. Dari hasil pengembangan dan uji coba didapatkan bahwa SIG berbasis mobile pada Android ini dapat dibuat dengan 6 (enam) fitur utama, yaitu peta sukabumi, kuliner, informasi SPBU, hotel, wisata, dan tentang aplikasi. Disamping itu, berdasarkan hasil uji coba dengan metode blackbox testing pada 4 (empat) jenis perangkat smartphone dapat berjalan dengan baik dan menampilkan halaman yang sesuai. Abstract: Tourism growth in Indonesia is very high and areas that have tourism potential are spread throughout the region. One area that shows the level of tourism economic activity is Sukabumi. Based on data from BPS that there has been an increase in the level of visits to the Sukabumi area which reached almost 100% every year from 2015 to 2018. However, the Sukabumi area still lacks information about tourism locations and how to get to tourist sites because most of the Sukabumi tourism areas still lack transportation. general public to get to that location, so information is needed that can help tourists to get to that location. The need for a geographic information system (GIS) about Sukabumi is very important to make it easier for tourists. When traveling, information is needed about these tourist attractions, such as temporary residences or hotels, refueling (gas stations), and culinary places to eat in Sukabumi. With these problems, a solution is needed in finding information about the Sukabumi tourist area. In developing the application, the Waterfall development method is used. From the results of development and testing, it was found that a mobile-based GIS on Android can be made with 6 (six) main features, namely Sukabumi maps, culinary, gas station information, hotels, tours, and about applications. In addition, based on the results of trials with the blackbox testing method on 4 (four) types of smartphone devices can run well and display the appropriate page.
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Siregar, Yustria Handika, and Mardiana Nainggolan. "SISTEM INFORMASI GEOGRAFIS PEMETAAN LOKASI BENCANA ALAM DI SUMATERA UTARA BERBASIS WEB." JURNAL TEKNOLOGI INFORMASI 2, no. 2 (February 1, 2019): 138. http://dx.doi.org/10.36294/jurti.v2i2.428.

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Abstract - Developments in information technology, especially information systems have brought convenience that promises a work efficiency. For example geographic information system is a tool with a computer system that is used to map conditions and events that occur on the face of the earth is a system that is helpful in providing and presenting information needed by users. The development especially in the aspect of environmental needs in order to overcome or reduce the impact of disasters in the Sumatran region, and by improving the performance of the BPBD, it is necessary to have a GIS-based information system that can show BPBD disaster points that already exist in North Sumatra. With the existence of map information, especially in the web system, it is expected to provide fast and accurate information, especially knowing the exact location of the disaster. thus facilitating the work of officers in providing disaster information at the head office. Keywords - Geographic Information Systems, Mapping, Web.
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45

Ardhy, Ferly. "Sistem Informasi Geografis Penyedia Jasa Rumah Kos Berbasis Website (Studi Kasus: Wilayah Kotabumi Lampung Utara)." SIMADA (Jurnal Sistem Informasi & Manajemen Basis Data) 1, no. 1 (March 9, 2018): 41. http://dx.doi.org/10.30873/simada.v1i1.1113.

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Geographic Information System is a special information system that manages data that has spatial information (spatial reference). Or in a narrower sense, is a computer system that has the ability to build, store, manage and display geo-referenced information, such as data identified by its location in a database. With this rapid technological progress, the author tries to implement one of the GIS application program into the form of Kost Home layout information in Kotabumi. The author tries to build an application that will help to simplify the search such as information about home boarding services, home boarding locations, and strategic location of boarding house. The system to be created is "Geographic Information System Provider of Kost Home Based Website". The development used in this research is the development with Object Oriented model that uses several tools such as Use Case, Activity Diagram, and Class Diagram. And for system development method used is Prototyping development method. Keywords: GIS; Object Oriented; Prototyping.
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Priyono, Susilo Budi, and Sri Rahayu. "APLIKASI PENGINDERAAN JAUH DAN SISTEM INFORMASI GEOGRAFIS (SIG) UNTUK PERENCANAAN PENGEMBANGAN TAMBAK BIOCRETE." Jurnal Perikanan Universitas Gadjah Mada 5, no. 2 (August 1, 2003): 32. http://dx.doi.org/10.22146/jfs.9036.

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Application of remote sensing and geographic information system (GIS) for planning of biocrete shrimp ponds development was studied in the coastal area between Opak River and Progo River, Bantul Regency. Analysis of land suitability for biocreteshrimp pond used a multi-scoring of some physical variables, i.e. slope, soil texture, distance from coast line, distance from river, annual rainfall, flooded frequency, and landuse. Spatial analysis used a GIS software (ER Mapper 5.5, ARC/Info 3.5 and ARC/View GIS 3.2). The results showed that suitable land fotbiocreteshrimp pond was 73,6 ha. It found on beach ridge area that was distributed at Srandakan, Sanden, and Kretek Region. However, considered on the Detail Planning of Spatial Arrangement at Southern Coastal of Bantul Regency (RDTK PantaiSelaatnKabupatenBantul) and suistanable aquaculture planning, the development of biocrete shrimp ponds should be limited to 36,8 ha (50%), i.e. 18,4 ha ponds at Srandakan and 18,4 ha ponds at Sanden. Biocrete shrimp ponds had to be built at distance about 300 m from cost line.
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Kalsum, Ummi, Yuswar Yunus, and T. Ferijal. "Arahan Konservasi DAS Meureudu Menggunakan Sistem Informasi Geografis (SIG)." Jurnal Ilmiah Mahasiswa Pertanian 2, no. 2 (May 1, 2017): 423–29. http://dx.doi.org/10.17969/jimfp.v2i2.3050.

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Анотація:
Abstrak. Erosi dapat memicu degradasi lahan. Potensi erosi akan meningkat dengan semakin berkurangnya tutupan lahan dan minimnya tindakan konservasi. SIG diterapkan dalam berbagai ilmu antaranya yaitu dalam bidang bidang sumberdaya alam (inventarisasi manajemen dan kesesuaian lahan untuk pertanian). Rumusan masalahnya adalah sebagai berikut, Apakah kelas erosi yang terjadi di DAS Meureudu berada dalam kategori sedang ? Bagaimana penerapan upaya konservasi vegetatif dan mekanik ? Apakah terdapat korelasi antara besarnya erosi dengan upaya konservasinya ?. Kelas erosi yang terjadi di DAS Meureudu berada dalam kategori sedang. Upaya konservasi vegetatif dan mekanik di DAS Meureudu dapat diterapkan. Terdapat korelasi antara besarnya erosi yang terjadi di DAS Meureudu dengan upaya konservasinya. Jumlah erosi total yang terdapat di DAS Meureudu sebesar 109,52 ton/ha/thn, termasuk kedalam kelas laju erosi yang sedang. konservasi yang disarankan dapat mengurangi laju erosi yang terdapat di DAS Meureudu menjadi 24,62 ton/ha/thn. Penerapan konservasi dengan jenis tanaman dan pengelolaan yang tepat dapat mengurangi kelas laju erosi sedang menjadi ringan.Kata kunci : Erosi, SIG, KonservasiAbstract. Erosion triggers soil degradation and its rate will increase due to a decline topsoil quality with no real conservation. By using GIS (Geographic Information Systems) to examine the soil erosion and the conservation practices on the Drainage Basin (DAS) Meureudu.The formulation of the problem is as follows, Do class erosion in the watershed Meureudu in a category is? How the application of vegetative and mechanical conservation efforts? Whether there is a correlation between the magnitude of erosion by conservation efforts?. Class erosion in the watershed Meureudu are in the medium category. Vegetative and mechanical conservation efforts in the watershed Meureudu can be applied. There is a correlation between the magnitude of the erosion in the watershed Meureudu with conservation aims. it was found that the total erosion in that area was 109,52 ton/ha/year (categorized as average rate of soil erosion). Concerning this result, the conservation practices needed was 24,62 ton/ha/year. Applying appropriate conservation such as using proper management and plants will decrease the rate of soil erosion.Keywords: Erosion, GIS, ConservationAbstract. Erosion triggers soil degradation and its rate will increase due to a decline topsoil quality with no real conservation. By using GIS (Geographic Information Systems) to examine the soil erosion and the conservation practices on the Drainage Basin (DAS) Meureudu.The formulation of the problem is as follows, Do class erosion in the watershed Meureudu in a category is? How the application of vegetative and mechanical conservation efforts? Whether there is a correlation between the magnitude of erosion by conservation efforts?. Class erosion in the watershed Meureudu are in the medium category. Vegetative and mechanical conservation efforts in the watershed Meureudu can be applied. There is a correlation between the magnitude of the erosion in the watershed Meureudu with conservation aims. it was found that the total erosion in that area was 109,52 ton/ha/year (categorized as average rate of soil erosion). Concerning this result, the conservation practices needed was 24,62 ton/ha/year. Applying appropriate conservation such as using proper management and plants will decrease the rate of soil erosion
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Iryanthony, Sigit Bayhu. "ANALISIS LOKASI PEMBUANGAN LIMBAH PADAT DI KOTA TEGAL MENGGUNAKAN SISTEM INFORMASI GEOGRAFIS." Media Komunikasi Geografi 19, no. 1 (July 20, 2018): 11. http://dx.doi.org/10.23887/mkg.v19i1.13655.

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Анотація:
The increasing population population is a problem for the environment. Increased population will increase the amount of consumption and waste generated. Waste Solid (SW) becomes a problem that is not needed properly. SW deliber changes environmental balance that can cause contamination of soil, air and air. The problem of SW in Tegal City becomes a serious problem. TPA located in Muarareja Urban Village, the lease of the land has expired since November 2015. The need to study the determination of the landfill location is an immediate need. By utilizing Geographic Information System (GIS), is an ideal model in determining location based on data overlay method. GIS utilization with physical data analysis and conformity with Spatial Plan (RTRW). Obtained several location options that can be used as an alternative landfill location. Some government locations, 1) Pulosari District, Kab. Pemalang, 2) District Tonjong, Kab. Brebes, 3) Kedungbanteng Sub-district, Tegal Regency.
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49

Santoso, Sugeng, Ilamsyah Ilamsyah, and Rio Abilaji. "PANDU LOKASI WISATA KOTA TANGERANG DENGAN SISTEM INFORMASI GEOGRAFIS BERBASIS WEB." Jurnal Sistem Informasi dan Informatika (Simika) 2, no. 1 (February 21, 2019): 91–101. http://dx.doi.org/10.47080/simika.v2i1.335.

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Around the tourists who come to the city of Tangerang at this time makes the problem faced by the Tangerang Culture and Tourism Office. To help solve the problem faced, the author designed a web-based geographic information system (GIS) which would later help tourists in finding tourist locations in the city of Tangerang easily and precisely. The advantages of this web service can be used to solve the problems that exist in the Tangerang City Culture and Tourism Office and help tourists in obtaining tourist information, looking for attractions, displaying the path to the desired tourist attractions as well as providing photographs of interesting attractions. So that it can increase public interest or tourists who will visit to tour the city of Tangerang. The research methodology uses a prototyping approach and the system design uses UML (Unifed Modeling Language).
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50

Sutanto, Sutanto, Widyawati Widyawati, and Dodi Irawan. "PERANCANGAN SISTEM INFORMASI GEOGRAFIS PELAYANAN PETA TEMATIK NILAI TANAH PADA KANTOR BADAN PERTANAHAN NASIONAL KOTA SERANG." Jurnal Sistem Informasi dan Informatika (Simika) 2, no. 2 (August 28, 2019): 29–43. http://dx.doi.org/10.47080/simika.v2i2.602.

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The rapid growth of large cities is heavily influenced by the complexity of the functions that run a city or region. Growth is very rapid development in large cities make the need for land and will further increase the value of land. Needs a very high soil have a tendency value of land in major cities increased. It is influenced by growing development in the region or the city. With the increase in land value that occurs is expected to be predicted so that the increase in land value that occurs not hampers the development of the area. While Geographic Information Systems (GIS) or also known as Geographic Information System (GIS), the end - the end is experienced significant development in line with advances in information technology. GIS is a computer-based information system that combines elements of the map (geographical) and information about the map (data attributes) that are designed to obtain, process, manipulate, analyze, demonstrate and display spatial data to complete the planning, process and investigate the problem. So they make a thematic map of land value that describes the amount of land value or the market price and the ground potential of a certain area, which serves as a spatial information (spatial) is Thematic Map Value of Land, as the information value of land in the city of Serang, making requires data of land prices based on market value.
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