geographic information system (SIG)

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Web Based Geographic Information System

Web Based Geographic Information System

Teknologi SIG (Sistem Informasi Geografis)/Geographic Information System (GIS) merupakan suatu teknologi mengenai geografis yang telah sangat berkembang. Saat ini telah dikenal istilah-istilah Desktop GIS, WebGIS, dan Database Spatial yang merupakan wujud perkembangan teknologi Sistem Informasi Geografis untuk memberikan solusi atas berbagai permasalahan yang hanya dapat dijawab dengan teknologi SIG ini.

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Implementasi Geographic Information System Sumber Daya Pendidikan Di Kabupaten Tapanuli Utara

Implementasi Geographic Information System Sumber Daya Pendidikan Di Kabupaten Tapanuli Utara

Teknologi Geographic Information System (GIS) telah berkembang pesat. GIS dibuat dengan menggunakan informasi yang berasal dari pengolahan sejumlah data, yaitu data geografis atau data yang berkaitan dengan posisi obyek di permukaan bumi. Teknologi GIS mengintegrasikan operasi pengolahan data berbasis database yang biasa digunakan saat ini, seperti pengambilan visualisasi yang khas serta berbagai keuntungan yang mampu ditawarkan analisis geografis melalui gambar-gambar petanya. GIS dapat disajikan dalam bentuk aplikasi desktop maupun aplikasi berbasis web. GIS juga dapat memberikan penjelasan tentang suatu peristiwa, membuat peramalan kejadian, dan perencanaan strategis lainnya serta dapat membantu menganalisis permasalahan umum seperti masalah ekonomi, penduduk, sosial pemerintahan, pertahanan serta bidang pariwisata (Swastikayana, 2011).
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Implementasi Geographic Information System Sumber Daya Pendidikan Di Kabupaten Tapanuli Utara

Implementasi Geographic Information System Sumber Daya Pendidikan Di Kabupaten Tapanuli Utara

Education is an important field in life. One criteria of developed area is a good quality of education. North tapanuli regency is an area that is trying to upgrade the quality of its education for this is a government responsibility, in this case, Education Authority of North Tapanuli Regency. The Advancement of education of an area is based on its educational resources. Educational resources in an area will describe the distribution of education in the area. The resources in this case are infrastructure, workforce (teachers and staff), students and schools. To date, the presentation of educational information resources in North Tapanuli is still presented manually, it is difficult to map the impact on the power of education in North Tapanuli, given that education is a basic resource in advancing the quality of education. Geographic Information System (GIS) as a system which is able to display spatial data connected to the attribute data becoming a display that is able to provide spatial analysis. GIS is used to map the location of school, in addition to the GIS is also used for mapping the distribution of education indicators by district. Indicators of educational equity are calculated based on Law No.20 of 2003. They are: Angka Partisipasi Kasar (APK), Angka Partisipasi Murni (APM), Rasio Guru Murid (RGM), Rasio Kelas Murid (RKM), Rasio Sekolah Murid (RSM) and Angka Shift. GIS will display a map of District and Sub-District. The regency map displays district education indicators, number of schools, students and teachers and school status. District Map will display the point of school which is exsisting in that district, where that point will be connected to the school yard that contains educational resources information of the school.
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Implementasi Geographic Information System Sumber Daya Pendidikan Di Kabupaten Tapanuli Utara

Implementasi Geographic Information System Sumber Daya Pendidikan Di Kabupaten Tapanuli Utara

Education is an important field in life. One criteria of developed area is a good quality of education. North tapanuli regency is an area that is trying to upgrade the quality of its education for this is a government responsibility, in this case, Education Authority of North Tapanuli Regency. The Advancement of education of an area is based on its educational resources. Educational resources in an area will describe the distribution of education in the area. The resources in this case are infrastructure, workforce (teachers and staff), students and schools. To date, the presentation of educational information resources in North Tapanuli is still presented manually, it is difficult to map the impact on the power of education in North Tapanuli, given that education is a basic resource in advancing the quality of education. Geographic Information System (GIS) as a system which is able to display spatial data connected to the attribute data becoming a display that is able to provide spatial analysis. GIS is used to map the location of school, in addition to the GIS is also used for mapping the distribution of education indicators by district. Indicators of educational equity are calculated based on Law No.20 of 2003. They are: Angka Partisipasi Kasar (APK), Angka Partisipasi Murni (APM), Rasio Guru Murid (RGM), Rasio Kelas Murid (RKM), Rasio Sekolah Murid (RSM) and Angka Shift. GIS will display a map of District and Sub-District. The regency map displays district education indicators, number of schools, students and teachers and school status. District Map will display the point of school which is exsisting in that district, where that point will be connected to the school yard that contains educational resources information of the school.
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Water Storage Index Estimation using Geographic Information System

Water Storage Index Estimation using Geographic Information System

est land, landuse not in accordance with the carrying capacity of land results land resources degradation. The research objec- tive was to estimate water storage index (IPA) of six sub watersheds (Panjang, Rengas, Legi, Galeh, Parat, and Sraten) in the cachment area of lake of Rawapening by using Geographic Information System.

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Implementing Geographic Information System   For Land Use And Spatial Planning

Implementing Geographic Information System For Land Use And Spatial Planning

Abstract: Nowadays, a local government has to improve their own financial ability in order to enhance the quality of life of the local community. Although, the local governments have successfully increased their own earnings, they have not yet optimized the potential income. Moreover, regarding to Wagner’s Law, the government budget has to improve through the years simply as the public needs increased. Based on this condition, the local government should prepare strategic policies by using creativity and intelligent in optimizing local earnings. One way to support those strategic policies is by using information technology. The implementation of information technology by a local government is started from the development process planning until preparing public services and optimizing local potential economy. The Geographic Information System (GIS) is recently used to support those activities.
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Analisa Kebutuhan GIS (Geographic Information System) terhadap Perencanaan Pembangunan Kota Medan

Analisa Kebutuhan GIS (Geographic Information System) terhadap Perencanaan Pembangunan Kota Medan

dalam proses pengambilan keputusan penggunaan lahan yang tepat. Pengambilan keputusan yang bisa dilakukan melalui hasil analisis data lapangan yang disajikan dalam bentuk peta. Salah satu bentuk teknologi komputer yang secara luas telah digunakan untuk meningkatkan proses perencanaan wilayah dan kota adalah Sistem Informasi Geografis (SIG). Banyak implementasi dari SIG berhasil menunjukkan peningkatan dan perbaikan yang signinfikan pada proses pengambilan keputusan karena SIG dapat menyediakan informasi kuantitatif dan kualitatif yang dibutuhkan pada proses perencanaan wilayah dan kota. Selain itu, SIG dapat membuat kerangka yang solid untuk mendukung proses pengambilan keputusan jika digunakan sebagai komponen utama pada Sistem Informasi Perencanaan. Penggunaan SIG bersama- sama dengan teknik pemodelan komputer dapat memperluas cakupan dari proses analisa dan proses pengambilan keputusan pada perencanaan wilayah dan kota. Selain itu, kombinasi SIG dengan teknik simulasi-mikro (microsimulation
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Implementasi Geographic Information System Sumber Daya Pendidikan Di Kabupaten Tapanuli Utara

Implementasi Geographic Information System Sumber Daya Pendidikan Di Kabupaten Tapanuli Utara

2. Data dari sistem Penginderaan Jauh (antara lain citra satelit, foto-udara, dsb.) Data Pengindraan Jauh dapat dikatakan sebagai sumber data yang terpenting bagi SIG karena ketersediaanya secara berkala. Dengan adanya bermacam- macam satelit di ruang angkasa dengan spesifikasinya masing-masing, kita bisa menerima berbagai jenis citra satelit untuk beragam tujuan pemakaian. Data ini biasanya direpresentasikan dalam format raster.

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A Web-based Geographic Information System for Aceh Natural Hazards

A Web-based Geographic Information System for Aceh Natural Hazards

Aceh province is the most affected area by the tsunami of 26 December 2004. Aceh also has experiencing a number of natural hazards; flood, earthquakes, and volcano’s eruptions. Until now, Aceh has no natural hazards information system which can be used to increase public awareness in order to reduce the impact of the hazards. Natural hazards information system provides hazard maps as the guideline for disaster risk mitigation planning. Therefore, the development of a Web GIS based information system for Aceh natural hazards, referred as Aceh Natural Hazards Information System (ANHIS), is a very strategic decision to increase public awareness of the risks of natural disaster hazard in Aceh. This paper proposes conceptual design and the development of prototype for ANHIS. The main purpose of ANHIS is to visualize many natural hazards maps and disseminate information of the hazardous areas for disaster agencies, researchers and communities in order to help them act on warning issue. In order to develop the prototype, the system requirements, configuration, system design and implementation are presented in this paper. Furthermore, the results of prototype for ANHIS are demonstrated in terms of individual hazard map and multi-hazard map of many natural hazards in Aceh. Finally, the conclusions give the perspectives for future implementation of ANHIS.
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Implementasi Geographic Information System Sumber Daya Pendidikan Di Kabupaten Tapanuli Utara

Implementasi Geographic Information System Sumber Daya Pendidikan Di Kabupaten Tapanuli Utara

Istilah ini digunakan karena Geographic Infromation System dibuat berdasarkan pada ‘geografi’ atau spasial. Setiap objek geografi mengarah kepada spesifikasi lokasi dalam suatu ruang (space). Objek bisa berupa fisik, budaya atau ekonomi alamiah. Penampakan tersebut ditampilkan pada suatu peta untuk memberikan gambaran yang representatif dari spasial suatu objek sesuai dengan kenyataan di bumi. Simbol, warna, dan gaya garis digunakan untuk mewakili setiap data spasial yang berbeda pada peta dua dimensi.

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Implementasi Geographic Information System Sumber Daya Pendidikan Di Kabupaten Tapanuli Utara

Implementasi Geographic Information System Sumber Daya Pendidikan Di Kabupaten Tapanuli Utara

Blišťan, B et al. 2014. The Importance Of Geographic Information Systems Educati on At Universities In The Process Of Building A European KnowledgeBased Society. The Proceedings of 6th World Conference on educational Sciences Volume 191 , 2 June 2015, Pages 2458 – 2462.

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SPATIAL ANALYSIS FOR LAND CAPABILITY ASSESSMENT USING GEOGRAPHIC INFORMATION SYSTEM

SPATIAL ANALYSIS FOR LAND CAPABILITY ASSESSMENT USING GEOGRAPHIC INFORMATION SYSTEM

Peta kemampuan lahan diperoleh dari karakteristik kelas kemampuan lahan dan peta land system. Peta land system digunakan untuk melihat karekteristik lahan yang terdapat didalam peta land system yaitu tingkat bahaya erosi, drainase, kelerengan dan kedalaman tanah, land system ini juga digunakan dalam pengambilan sampel tanah untuk mendapatkan data permeabilitas, kepekaan erosi dan tekstur tanah dan kemudian dioverlaykan kedalam peta land system sehingga didapati peta kelas kemampuan lahan. Penentuan matriks kelas kemampuan lahan menurut Arsyad (2006) di lakukan dengan menentukan faktor penghambat terbesar, dapat dicontohkan penghambat yang digunakan adalah e (erosi), w (drainase), s (tanah) dan g (kelerengan). Pada klasifikasi ini dikenal prioritas penanganan penghambat berdasarkan tingkat kemudahan penanganannya. Pada kelas yang sama, bilamana mempunyai beberapa penghambat maka akan dipilih prioritas penghambat yang paling besar. Urutan prioritas penghambat tersebut adalah (dari yang paling mudah diatasi) e – w – s – g. Jadi apabila hasil klasifikasi dalam satu unit lahan menunjukkan Klas IVe, IVw dan IVs, maka akan ditetapkan sebagai Kelas IVs karena mempunyai jenis penghambat yang paling sulit ditangani.
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TEKNOLOGI GEOGRAPHIC INFORMATION SYSTEM DALAM MEMONITOR LAPORAN HIMPAUDI KOTA TANGERANG

TEKNOLOGI GEOGRAPHIC INFORMATION SYSTEM DALAM MEMONITOR LAPORAN HIMPAUDI KOTA TANGERANG

In every organization, reports are common and very important in running the business activities as well as in education. Reports in education plays a major role to determine the development in education, including the students, the school, the academic progress of students and others. In addition, the report also serves as a reference for planning and as a basis for decision making. To create a good report, there should be a monitoring in the reporting system. The monitoring system is useful for maintaining good reporting process and maintain the quality of a report. GIS is a technology to mapping the location which is useful to show the progress report in a certain place. This technology is particularly suitable as the basis of the monitoring system reports are scattered in various places, especially in education. GIS will show the HIMPAUDI’s education development that can be choose by metrics, so HIMPAUDI can compare the PAUD’s development in each region for decision making for strategic planning in the future.
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Rural Road Mapping Geographic Information System Using Mobile Android.

Rural Road Mapping Geographic Information System Using Mobile Android.

GPS is a global coordinate system that can determine the position coordinate of object anywhere on the earth either it is longitude, latitude or altitude [9]. GPS can be used as an efficient alternative to obtain spatial data automatically and in real time [10]. In this paper GPS is used for capturing coordinate point of polyline or commonly called path.

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Geographic Information System Penyebaran DBD Berbasis Web

Geographic Information System Penyebaran DBD Berbasis Web

Penyebaran DBD saat ini sudah sangat meresahkan masyarakat. Akan tetapi banyak masyarakatnya yang belum menyadarinya, termasuk masyarakat kota solo. Hal ini mungkin akibatnya kurangnya informasi mengenai jumlah penderita DBD maupun sebaran wilayah yang terkena dampak DBD. Sistem penyampaian informasi yang ada saat ini kurang efektif dan belum menampilkan kenampakan sebaran DBD secara kegeografisan, sehingga tidak diketahui wilayah mana saja yang terkena dampak DBD terendah hingga yang tertinggi. Oleh karena itu diperlukan metode dalam penyelesaiannya dimana data yang ditampilkan juga diikuti data kegeografisan wilayah terdampak. Geography Information System adalah salah satunya dimana sebaran DBD di Wilayah Kota Solo diolah dengan menggabungkan data spasial dengan data non spasial yang berupa attribut data lalu diimplementasikan dengan mengkonvertnya kedalam database menggunakan opensvgmapserver. Hal ini diharapkan dapat membantu dan mempermudah instansi terkait dalam menyampaikan informasi terkait DBD kepada masyarakat umum. Implementasi yang dihasilkan menggunakan web interface dimana terdapat peta tematik kota solo yang terdiri dari batas kecamatan, nama jalan, nama rumahsakit beserta informasinya, nama puskesmas beserta informasinya, jumlah penderita ditampilkan dengan grafik, data spasial berupa tingkat sebaran DBD tingkat kecamatan yang dibedakan dengan warna dan data non spasial berupa informasi jumlah penderita di tiap kelurahan.
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geoinformatika

geoinformatika

Sistem Informasi Geografis (SIG) / Geographic Information System (GIS) adalah suatu sistem informasi berbasis komputer, yang digunakan untuk memproses data spasial yang bergeoreferensi (berupa detail, fakta, kondisi, dsb) yang disimpan dalam suatu basis data dan berhubungan dengan persoalan serta keadaan dunia nyata (real world). Manfaat SIG secara umum memberikan informasi yang mendekati kondisi dunia nyata, memprediksi suatu hasil dan perencanaan strategis.

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Sistem Informasi Geografis Persebaran Pr

Sistem Informasi Geografis Persebaran Pr

Geographic Information System atau lebih dikenal dengan sebutan Sistem Informasi Geografis, merupakan suatu sistem informasi yang terintegrasi dan secara khusus digunakan untuk mengelola berbagai data yang mempunyai suatu informasi dalam bentuk spasial keruangan, dimana teknologi Sistem Informasi Geografis ini dapat digunakan untuk investigasi ilmiah, pengelolaan sumber daya, perencanaan pembangunan, kartografi, bahkan data juga digunakan untuk melakukan perencaraan terhadap rute. Secara praktisnya, kita bisa menyebutkan bahwa Sistem Informasi Geografis adalah suatu sistem komputerisasi yang mempunyai kemapuan untuk
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Jurnal Teknologi Vol. 6 No.1 2017

Jurnal Teknologi Vol. 6 No.1 2017

The need for mapping of a location in this globalization era is needed because it can provide information in detail easily for user about position and distance of location. As a consulting company engaged in marketing and data provider, PT Practal Indonesia should provide information in digital mapping that can be accessed by clients easily and precisely. This research aims to design mapping system development into geographic information system web based. This system design use UML (Unified Modelling Languange) include use case diagram, activity diagram, sequence diagram and class diagram. This implementation use dreamwaever, MySql and PHP as language programming.
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WINRIP DOC MPR CTC MPR No.14 2014 02 2014 02 10 00225.

WINRIP DOC MPR CTC MPR No.14 2014 02 2014 02 10 00225.

All complaints were expected to be submitted through the WINRIP website but in fact, to date, most complaints have been received by letter, either directly or indirectly, although a few were sent by fax or email. However, to attain the best possible transparency of the project, complaints submitted manually through letter, facsimile, telephone, e mail or visit to the Public Works regional offices will be entered in the WINRIP website by the CHS team of CTC. The possibility of using the ‘short message service’ (SMS) from a cell phone for complaints was considered and it was decided that all SMS messages, although not treated as formal complaints, will be recorded as additional information.
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WINRIP DOC MPR CTC MPR No.13 2014 01 2014 01 09 00225.

WINRIP DOC MPR CTC MPR No.13 2014 01 2014 01 09 00225.

The Government of Indonesia wishes to continue strengthening of the National Road system in Indonesia while the Eastern Indonesia National Roads Improvement Project (EINRIP which is assisted by AusAID through the Australian Indonesia Partnership or AIP), is providing support program of National road and bridge improvement works in Eastern Indonesia. The Western Indonesia National Road Improvement Project (WINRIP) will provide similar support for National road and bridge in the Sumatra region of Indonesia. The focus of WINRIP will be roads administered directly by the National Government, including those currently classified as Provincial, Kabupaten(District) or non-status roads which are in process of being reclassified as National roads. In addition, provision will be made for major bridge repair works, rehabilitation, duplication and replacement as necessary to complement road betterment works.
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