Analysis Mapping of Long Dry With Drone Type Dji Spark in Hargowilis, Kokap, Kulonprogo

  • Indreswari Suroso Aeronautical Studies Program of Yogyakarta Higher Aeronautical Technology School
  • Hendriana Helda Pratama Aeronautical Studies Program of Yogyakarta Higher Aeronautical Technology School
Keywords: Drone, Long Dry, Mapping, Photography, Kokap


This research was conducted in the village of Hargowilis, Kokap District, Kulon Progo Regency with a temperature of 31oC, with a wind speed of 13 km/h, 55% air humidity, and a height of 35 m from the ground surface. This research was carried out on November 8, 2019 with hot weather conditions and wind speeds of around 13 km/hour. The purpose of this study is to map the drought area in Mount Menoreh Hargowilis Village, Kokap, Kulon Progo. The method used in this study are preparation for making a drone, survey of area Menoreh hills in Hargowilis, Kokap, Kulon Progo planning testing at certain altitude in the air; calibration drone; taking aerial photograph in area long dry and then analysis of data then mapping the area in Hargowilis, Kokap, Kulon Progo. Calibration drone DJI Spark is the way to calibrate the drone is automatically. When the drone is turned on it automatically calibrates the accelerometer; gyrometer; and GPS  Drones use rotors for propulsion and control. Rotating rotors push air down, to be able to fly forward, it requires a push from the rotor. When the rotor presses air, air pushes the rotor. Lift force to control the force up and down. The faster the rotor rotates, the greater the lift. Multicopter has the advantage of being stable against wind speed. The battery capacity of drone is 2200 mAH with camera DJI Spark. Drone time used in this study ranges from 15 minutes at a speed of 30 mph. Aerial photo results show that the Hargowilis area, Kokap, Kulon Progo Regency experienced a drought so that the Menoreh Hills became a deforested forest.

 Keywords: Drone, Long Dry, Mapping, Photography, Kokap


Download data is not yet available.


Afif, H. A., Saraswati, R., & Hernina, R. (2019). UAV Application for Landslide Mapping in Kuningan Regency, West Java. In E3S Web of Conferences (Vol. 125, p. 03011). EDP Sciences.

Ajayi, O. G., Palmer, M., & Salubi, A. A. (2018). Modelling farmland topography for suitable site selection of dam construction using unmanned aerial vehicle (UAV) photogrammetry. Remote Sensing Applications: Society and Environment, 11, 220-230.

Cahyono, A. B., & Zayd, R. A. (2018, March). Rapid mapping of landslide disaster using UAV-photogrammetry. In journal of physics: conference series (Vol. 974, No. 1, p. 012046). IOP Publishing.

Calantropio, A., Chiabrando, F., Rinaudo, F., & Losè, L. T. (2018). Use And Evaluation Of A Short Range Small Quadcopter And A Portable Imaging Laser For Built Heritage 3d Documentation. International Archives Of The Photogrammetry, Remote Sensing & Spatial Information Sciences, 42(1).

Di Stefano, G., Romeo, G., Mazzini, A., Iarocci, A., Hadi, S., & Pelphrey, S. (2018). The Lusi drone: A multidisciplinary tool to access extreme environments. Marine and Petroleum Geology, 90, 26-37.

Erharter, G. H., Kieffer, D. S., & Prager, C. (2019). UAV-Based Discontinuity Analyses and Rock Fall Source Mapping in Alpine Terrain (Pletzachkogel/Tyrol/Austria). In IAEG/AEG Annual Meeting Proceedings, San Francisco, California, 2018-Volume 1 (pp. 317-323). Springer, Cham.

Gupta, S. K., & Shukla, D. P. (2018). Application of drone for landslide mapping, dimension estimation and its 3D reconstruction. Journal of the Indian Society of Remote Sensing, 46(6), 903-914.

Hardy, A., Makame, M., Cross, D., Majambere, S., & Msellem, M. (2017). Using low-cost drones to map malaria vector habitats. Parasites & vectors, 10(1), 29.

Hartono, D., & Darmawan, S. (2018). Pemanfaatan Unmanned Aerial Vehicle (UAV) Jenis Quadcopter untuk Percepatan Pemetaan Bidang Tanah (Studi Kasus: Desa Solokan Jeruk Kabupaten Bandung). REKA GEOMATIKA, 2018(1).

Lubis, M. Z., Taki, H. M., Anurogo, W., Pamungkas, D. S., Wicaksono, P., & Aprilliyanti, T. (2017, December). Mapping the distribution of potential land drought in Batam Island using the integration of remote sensing and geographic information systems (GIS). In IOP Conference Series: Earth and Environmental Science (Vol. 98, No. 1, p. 012012). IOP Publishing.

Kim, S. J., Jeong, Y., Park, S., Ryu, K., & Oh, G. (2018). A survey of drone use for entertainment and AVR (augmented and virtual reality). In Augmented Reality and Virtual Reality (pp. 339-352). Springer, Cham.

Prasetyo, E. E., & Suroso, I. (2018). Analisis Pemetaan Daerah Rawan Longsor Dengan Drone Type Multicopter Di Somangari Kecamatan Kaligesing Kabupaten Purworejo. Teknika Sttkd: Jurnal Teknik, Elektronik, Engine, 5(2), 5-15.

Rohman, A., & Prasetya, D. B. (2019, August). Rapid Mapping for Simple Flood Mitigation Using Commercial Drone at Way Galih Village, Lampung, Indonesia. In Forum Geografi (Vol. 33, No. 1).

Saad, A. M., & Tahar, K. N. (2019). Identification of rut and pothole by using multirotor unmanned aerial vehicle (UAV). Measurement, 137, 647-654.

Sato, Y., Ozawa, S., Terasaka, Y., Kaburagi, M., Tanifuji, Y., Kawabata, K., ... & Torii, T. (2018). Remote radiation imaging system using a compact gamma-ray imager mounted on a multicopter drone. Journal of Nuclear Science and Technology, 55(1), 90-96.

Suroso, I. (2018). Analisis Pemetaan Daerah Rawan Banjir Dan Longsor Dengan Drone Type Multicopter Di Girimulyo, Kabupaten Kulonprogo. Teknika Sttkd: Jurnal Teknik, Elektronik, Engine, 5(1), 34-43.

Suroso, I. (2018). Analisis Peran Unmanned Aerial Vehicle Jenis Multicopter Dalam Meningkatkan Kualitas Dunia Fotografi Udara Di Lokasi Jalur Selatan Menuju Calon Bandara Baru Di Kulonprogo. REKAM: Jurnal Fotografi, Televisi, dan Animasi, 14(1), 17-25.

Suroso, I. (2018). Analysis Of Mapping Multicopter Drones In The Entrance Area Of Prospective New Airports In Congot, Temon, Kulonprogo, Yogyakarta. Journal of Applied Geospatial International, 2(2).

Suroso, I. (2019, June). Analysis of Mapping Area of Flood With Drone Type Multicopter in Girimulyo, Kulonprogo. In IOP Conference Series: Earth and Environmental Science (Vol. 271, No. 1, p. 012013). IOP Publishing.

Suroso, I., & Irmawan, E. (2018). Analysis Of Aerial Photography With Drone Type Fixed Wing In Kotabaru, Lampung. Journal of Applied Geospatial Information, 2(1), 102-107.

Suroso, I., & Irmawan, E. (2019). Analysis of UAV multicopter of air photography in New Yogyakarta International Airports. TELKOMNIKA, 17(1), 521-528.

Widodo, A. W., Budisusanto, Y., & Cahyono, A. B. (2019). Development of Land Information Maps (PIBT) Through Community Participation Using Quadcopter UAV (Case Study Desa Pojok, Kec. Tawangsari, Kab. Sukoharjo). IPTEK Journal of Proceedings Series, (2), 22-27.