AplikasiPortable Transformasi Koordinat dan Penomoran Peta Pendaftaran Tanah. 1. Transformasi Koordinat Geodetic - TM3'. Untuk kalangan BPN (Badan Pertanahan Nasional), koordinat TM3' pasti tidak asing lagi. Koordinat TM3' adalah sistem koordinat Grid yang membagi bumi dalam grid tiga derajad. Para pengguna GPS dan atau AutoCAD, biasanya yang
Untukcara pengoperasianya sangatlah mudah anda tinggal memasukan koordinat yang akan dikonversi disebelah kiri pada tulisan (Enter your Coordinates) dan hasilnya pada sebelah kanan, jangan lupa untuk mengganti Zona apabila data yang dimasukkan bentuknya UTM. Konversi UTM Koordinat ke Derajat Desimal Konversi Koordinat dalam Derajat Desimal ke UTM.
Situsyang juga dibuat oleh orang Indonesia ( Asep Assafah ) ini juga menyediakan form untuk melakukan konversi koordinat online dari banyak sistem proyeksi ke sistem proyeksi lainnya, termasuk konversi koordinat TM3 ke UTM. Anda bahkan bisa melakukan konversi koordinat dengan banyak data sekaligus.
S2.69081 E 103.94408. Dimana untuk 41' merupakan nilai dengan satuan menit, 1⁰ merupakan satuan yang sama dengan 1 jam sehingga (1 jam=60 menit) dan 26.9" merupakan satuan detik (1 jam= 3600 detik). Sehingga 41/60 = 0,6833 untuk konversi satuan menit dan 26,9/3600=0,00747 untuk konversi satuan detik. Pada kedua hasil tersebut pun
FileExcel Template untuk Konversi koordinat dari sistem geografis (decimal degrees & DMS) ke UTM atau sebaliknya untuk penggunaan yang lebih cepat dan praktis. Konversi koordinat dari sistem proyeksi geografis ke UTM atau konversi koordinat dari UTM ke Geografis /Lat Long sudah tersedia pada software GIS.
Templateini memudahkan konversi koordinat geografis dalam derajat, menit dan detik untuk koordinat UTM. 1. Bagaimana cara memasukkan data. Data harus diproses dalam lembar excel, sedemikian rupa sehingga tersedia dalam format yang diperlukan.
Berikutadalah beberapa alteratif cara konversi TM3 ke UTM yang dapat digunakan oleh pengguna. Anda bahkan bisa melakukan konversi koordinat dengan banyak data sekaligus. Buka ArcToolbox Pilih Data Management Tools seperti gambar di bawah ini double clik lalu pilih Projection and Transformation feature Project Akan muncul dialog box seperti ini.
Catatan: Koordinat Kota di bersumber dari peta skala 1:250.000. Koordinat kota dianggap mewakili pusat kota. Ada kemungkinan kota yang berada di area yang memiliki 2 area zone, misal Utara dan Selatan, posisi di ambil salah satu. Mohon maaf bila ada kesalahan dalam penulisan. Ibu Kota Propinsi.
LL2O5PA. Tag UTM. TM3 Posting kali ini akan diuraikan cara mengeplot koordinat UTM ke dalam program google earth melalui file kml menggunakan program Microsoft Excel. Program Microsoft Excel digunakan untuk merubah file koordinat UTM ke koordinat Lintang, Bujur kemudian berdasarkan koordinat Lintang, Bujur tersebut dibuatkan file KML yang dapat dibuka dengan program Google Earth. Sebagai panduan langkah-langkah di bawah, silakan download file terlebih dahulu. Contoh list koordinat UTM yang akan diplot Berikut adalah tahapan-tahapan yang saya lakukan 1. Konversi Koordinat UTM ke Koordinat Geografis Lintang, Bujur. Rumus untuk merubah koordinat UTM ke Koordinat Geografis, menggunakan rumus yang telah diuraikan dalam [XLS-MAP-09]Speadsheet Proyeksi Traverse Mercator di Excel Versi 2. Konversi atau proyeksi UTM ke Koordinat Geografis dengan asumsi menggunakan Ellipsoid Reference WGS 84, maka pada sheet [Parameters] dilakukan setting sebagai berikut [C2] Pilih WGS 84 Parameter a dan 1/f akan otomatis terisi [C6] Pilih UTM Parameter proyeksi UTM akan terisi sendiri [C14] Masukkan koordinat Bujur pendekatan [C15] Masukkan koordinat Lintang pendekatan. Masukkan nilai negatif jika terletak di lintang selatan South Setelah dilakukan setting parameter proyeksi, pindah ke sheet [Grid2Geo] untuk selanjutnya dilakukan proses proyeksi/konversi koordinat [AC] Masukkan koordinat UTM dengan urutan Nama Titik, East X, NorthY [D8] =lat menghitung nilai Koordinat Lintang dalam satuan desimal [E8] =lg menghitung Koordinat Bujur dalam satuan desimal [F8] =gConv menghitung konvergensi grid dalam satuan desimal [G8] =pntScale menghitung faktor skala titik copy rumus di [D8G8] ke bawah sampai ke titik terakhir yang akan dihitung 2. Setting XML untuk plotting koordinat dalam bentuk titik. Pindah ke sheet [pointxml] untuk membuat file kml dam bentuk titik. KML generator di atas akan membuat kumpulan titik dalam folder yang didefinisikan dalam cell [C4], nama titik dan koordinatnya dimulai dari cell [C6] dan cells [E6] sampai titik yang diinginkan. Cells yang berwarna kuning adalah cells yang berisi rumus atau formula dengan menggunakan referensi [Grid2Geo]. KML generator di atas akan membuat kumpulan titik dalam folder yang didefinisikan dalam cell [C4], nama titik dan koordinatnya dimulai dari cell [C6] dan cells [E6] sampai titik yang diinginkan. Cells yang berwarna kuning adalah cells yang berisi rumus atau formula dengan menggunakan referensi [Grid2Geo]. Sedangkan text dalam kolom G atau kolom XML adalah file KML yang akan diexport atau dibaca oleh Google Earth. Rumus yang disgunakan dalam worksheet [pointxml] [C4] Masukkan nama group atau folder titik [C6] =Grid2Geo!A8 mengambil point desc dari sheet [Grid2Geo] sebagai nama placemark [E6] =TEXTGrid2Geo!E8,"0."&REPT"0","14"&","&TEXTGrid2Geo!D8,"0."&REPT"0","14"&","&TEXTlist!D2," memformat koordinat Bujur, Lintang dari sheet [Grid2Geo] dalam unit desimal dengan format 14 digit desimal [G6] =B6&C6&D6&E6&F6 Menggabungkan text di kolom B, c d e dan F copy rumus di [A6G6] sampai ke titik terakhir di sheet [Grid2Geo] [G19] jangan lupa akhiri dengan text 3. Membukan file KML di Google Earth. [G3G19] Block range [G3G19]>> kemudian click kanan>>Copy Jalankan program note pad, kemudian paste hasil copy dari excel Kemudian simpan notepad dengan extensi kml. Misal disimpan dengan nama [ Jalankan program Google Earth kemudian bukan file [ Untuk kumpulan titik yang berbentuk polygon tertutuo silakan dicoba template di sheet [polygonxml]. ===terimakasih telah berkunjung di blog saya===
We've already processed files with total size of MB Leave feedback Send Feedback Conversion Transformation Viewer Epsg Coordinates Map GeoGenerator GeotagPhoto WktWkbConverter Transformation Convert to UTM Using this app is a fast and easy way to get coordinates in the UTM by automatically converting the coordinates of any Spatial Reference System SRS or EPSG don’t need any additional software or even registration. All you need to do is follow a few simple steps. Our app supports a lot of popular SRSs. EPSG registry contains about 10,000 items and we are constantly adding more. UTM Universal Transverse Mercator The Universal Transverse Mercator UTM is a map projection system for assigning coordinates to locations on the surface of the Earth. Like the traditional method of latitude and longitude, it is a horizontal position representation, which means it ignores altitude and treats the earth as a perfect ellipsoid. However, it differs from global latitude/longitude in that it divides earth into 60 zones and projects each to the plane as a basis for its coordinates. Specifying a location means specifying the zone and the x, y coordinate in that plane. Read More How to convert to UTM Select the Input SRS the default format is WGS84. Select a popular spatial reference system from the drop-down list or choose a custom system to enter the functioning EPSG code by yourself. Input the coordinates in a decimal degrees DD format. Click “Transform” to quickly convert coordinates. Get your coordinates in the UTM on your display. Click “Open Map” appears after the end of the conversion to visualize the converted coordinates on the World map. Click “Open Map” appears after the end of the conversion to visualize the converted coordinates on the World map. FAQ ❓ What is Coordinates Converter? Coordinates Converter is for converting between coordinate systems with one geodetic datum. The tasks of conversion include- Conversion between geodetic and geocentric coordinates;- Conversion to another type of map projection. ❓ Why is WGS84 used as standard coordinate system in most cases? WGS84 is intended for global use. GPS Global Positioning System, and many other applications use the ellipsoid and datum of WGS84 instead of earlier datum. ❗ What is UTM-N31? UTM Universal Transverse Mercator is a coordinate system that is based on the WGS84 ellipsoid. The UTM system divides the Earth into 60 zones, each 6° of longitude in width. The grid zones UTM 31N to 37N differ from the standard zone for the Northern Hemisphere, in part to accommodate the southern half of the Kingdom of Norway. 🌐 Which browser is recommend for Coordinates Converter? Any you already have installed. It runs with any browser on any device. ❗ Why can’t I see the map button on the screen? It appears after finishing the conversion process. }
Search by address, place or POI Example North East Input The input of the latitude is a decimal number between and If the degree of latitude is given in S as south, the number should be preceded by a minus sign. The input of the longitude is a decimal number between and If the longitude is given in W as west, the number should be preceded by a minus sign. If these limit values are not kept with the input, the frame turns red, and/or the fields remain empty. Decimal degree WGS84 Lat ° N Watch your step! Since this converter calculates with negative north values instead of positive south values, you have to put a - in front of your value, if it contains the specification S. So from S becomes here N! Lon ° E Watch your step! Since this converter calculates with negative east values instead of positive west values, you have to put a - in front of your value, if it contains the specification W. So from W becomes here E! Example North 47° East 12° The input for the latitude must be between -89 and 89 and must be an integer. The input for the longitude must be between -179 and 179 and must be integer. The input of minutes for latitude and longitude is an optional decimal number, but if it is made it must be between 0 and If these limits are not met, the frame will turn red or the fields will remain empty. Degrees Minutes WGS84 Lat ° ' N Attention! Since this converter calculates with negative north values instead of positive south values, you have to add a - in front of your degree value, if it contains the specification S. So 10° S becomes here -10° N! Lon ° ' E Attention! Since this converter calculates with negative east values instead of positive west values, you have to put a - in front of your degree value, if it contains the specification W. So from 20° W becomes here -20° E! Example North 47° 1' East 12° 20' The input for the latitude must be between -89 and 89 and must be an integer. The input for the longitude must be between -179 and 179 and must be integer. The input of minutes for latitude and longitude must be between 0 and 59 and must be integer. The input of the seconds for latitude and longitude is optional, but if it is done it must be between 0 and If these limits are not met during input, the frame will turn red or the fields will remain empty. Degrees Minutes Seconds WGS84 Lat ° ' " N Attention! Since this converter calculates with negative north values instead of positive south values, you have to add a - to your degree value, if it contains the specification S. So from 10° 1' S becomes here -10° 1' N! Lon ° ' " E Attention! Since this converter calculates with negative east values instead of positive west values, you have to put a - in front of your degree value, if it contains the specification W. So from 20° 1' W becomes here -20° 1' E! Example E East = 2783009 N North = 1223568 As these coordinates are only used in Switzerland and Liechtenstein, limit values for N and E apply. The northernmost point is about degrees and therefore the maximum value for N is 1,300,000. The southernmost point is about degrees and therefore the minimum value for N is 1,074,000. The easternmost point is about degrees and therefore the maximum for E is 2,834,000. The westernmost point is about degrees and therefore the minimum value for E is 2,484,000. If these limits are not met, the frame turns red or the fields remain empty. CH1903+ / LV95 Bessel 1841 Example Zone 32U East value 691831 North value 5337164 The zone determines the rough position of the point and should prevent mix-ups. Valid zone values are from 01A-60X, but without O and I. Eastern values must be between and North values must be between 1 and 9,999,999. If these limit values are not adhered to during input, the frame turns red or the fields remain empty. The letter of the zone is corrected automatically with wrong input. UTM coordinates WGS84 Example Zone 32U Plan square PU East value 91831 North value 37164 The zone determines the rough position of the point and should prevent mix-ups. Valid zone values are from 01A-60X, but without O and I. The grid square determines the location in the zone and consists of the eastern value A-Z without O and I and the northern value A-V without O and I. East values must be between 1 and 99,999. Missing digits are filled in at the back. North values must be between 1 and 99,999. Missing digits are padded at the back. Values below 10,000 must be filled with zeros at the front so that the two numbers are 5 digits long each. If these limit values are not adhered to during input, the frame turns red or the fields remain empty. The letter of the zone is automatically corrected if the input is incorrect. MGRS / UTMREF WGS84 Example R right value = 4468298 H high value = 5333791 Since the underlying ellipsoid for these coordinates is only used in Germany, limit values for R and H apply. The northernmost point is about 56 degrees and therefore the maximum value for H is 6200000. The southernmost point is about 46 degrees and therefore the minimum value for H is 5000000. The most westerly point is about 5 degrees and therefore the maximum value for R is 5700000. The easternmost point is about 16 degrees and therefore the minimum value for R is 2400000. If these limits are not met, the frame turns red or the fields remain empty. Gauss Kruger Bessel, Potsdam Example X longitude, longitude = HQXT8G Y latitude, latitude = R3WR5H Input The following characters are permitted for X and Y 0123456789 BCDFGHJKLMNPQRSTVWXZ. The length can be between 1 and 6 characters. NAC Natural Area Coding, WGS84 Example Input The input must always consist of 3 words. Each word is separated by a period. W3W What 3 Words Beispiel Short Code 8QQ7+V8, Dublin Full Code 8FVHG4M6+2X Eingabe Short Code besteht aus 4 Zeichen, gefolgt von einem + gefolgt von 2 Zeichen, gefolgt von einer Ortsbezeichung Full Code besteht aus 8 Zeichen, gefolgt von einem + gefolgt von 2-3 Zeichen. Erlaubte Zeichen sind außer beim Ortsnamen 23456789CFGHJMPQRVWX Plus Code google Open Location Code Height For members only m Click here to calculate the height using the coordinates The height data are based on the SRTM values. These values refer to a base area of 90m², so in steep terrain there can be larger deviations of up to 30 metres. Address - Click to display the address to the coordinates Click to display the address to the coordinates Here you can convert the most common coordinates into the other formats. This works in all directions and with all valid values. The valid values for the respective system can be found by moving the mouse over the input examples. After entering the values to be converted, either click on the calculator or confirm with the Enter key.
