EKSTRAKSI FITUR CITRA API BERBASIS EKSTRAKSI WARNA PADA RUANG WARNA HSV dan RGB
DOI:
https://doi.org/10.61805/fahma.v16i3.85Kata Kunci:
Fire Detection, HSV, RGB, Colour Filtering, Feature ExtractionAbstrak
The potential for fires increased at this time. Many factors cause fire, both small sale and large scale, such as forest fires. Early detection of fire is one of the right solutions. The Research about detection fire use any methods, you can use UAVs (Unmanned Aerial Vehicle), Android devices, and other technologies that are mostly based on image processing. This is one of the research based on image processing with fire objects. Fire image will be processed in the features extraction with the source of the fire coming from the candle. The candle is used as a detection object because the color characteristics of the fire in the candle as same as a larger scale fire. The method used is feature extraction based on colour extraction in HSV color space (Hue Saturation Value) and RGB color space (Red Green Blue). The result of this research are parameters of each color space for fire detection, there are HSV color space get 0,2≥Hue≥0,1; 0,85≥Saturation≥0,5; and 1≥Value≥0,9, and also for RGB color space get 255≥Red≥230; 250≥Green≥100; and 130≥Blue.
Unduhan
Referensi
BNPB, “Data Informasi Bencana Indonesia,” 2018. [Online]. Available: http://bnpb.cloud/dibi/laporan4. [Accessed: 02-Aug-2018].
S. Widyarto, “Deteksi lokasi titik api pada kebakaran hutan menggunakan colour image prosessing,” vol. 2012, no. semnasIF, pp. 37–41, 2012.
M. Hanifah, L. Syaufina, and I. Prasasti, “DETEKSI AREA BEKAS KEBAKARAN HUTAN DAN LAHAN MENGGUNAKAN DATA CITRA RESOLUSI MENENGAH MODIS The detection of burnt area using medium resolution satellite imagery of MODIS based on fire,” vol. 6, no. 1, pp. 77–85, 2016.
A. S. Permana, K. Usman, and M. A. Murti, “Deteksi kebakaran berbasis webcam secara realtime dengan pengolahan citra digital,” pp. 294–300, 2009.
K. Firdausy, Y. Saudi, T. Sutikno, P. Studi, T. Elektro, F. T. Industri, and U. A. Dahlan, “Deteksi api,” pp. 127–132.
D. A. Sartika and D. Hardiyanto, “Kendali Formasi Multi-UAV menggunakan Line of Sight (LOS) Guidance Law,” SETRUM, vol. 6, no. 1, pp. 68–79, 2017.
M. F. ; Abdullah, I. ; Wijayanto, and A. Rusdinar, “IMPLEMENTASI ALGORITMA PENDETEKSI API BERDASAR KOMPOSISI WARNA CITRA DIGITAL PADA QUADCOPTER YANG BERGERAK OTOMATIS,” vol. 3, no. 2, pp. 1978–1985, 2016.
Setiawardhana, N. Ramadijanti, R. Y. Hakkun, and A. S. Arifianto, “Pendeteksian halangan pada robot cerdas pemadam api menggunakan kamera dengan integral proyeksi,” pp. 1–8, 2008.
A. Zarkasi and H. Ubaya, “IMPLEMENTASI METODE KOMPUTER VISION SEBAGAI PENGOLAHAN CITRA API PADA KEBAKARAN LAHAN,” pp. 39–44.
M. Dahlan, T. Musa, and D. Farhamsa, “ALARM KEBAKARAN BERBASIS CITRA,” vol. 14, no. 1, pp. 90–96, 2015.
R. D. D. Kusuma, Harianto, and M. C. Wibowo, “RANCANG BANGUN ROBOT PEMADAM API MENGGUNAKAN PENGOLAHAN CITRA DAN FLAME SENSOR,” J. Control Netw. Syst., vol. 2, no. 1, pp. 1–8, 2013.
D. Hardiyanto and D. A. Sartika, “Identifikasi Konten Negatif pada Citra Digital Berbasis Tanda Vital Tubuh Menggunakan Ekstraksi Fitur GLCM dan Warna YCbCr,” vol. 6, no. 1, pp. 120–131, 2017.
D. Hardiyanto and D. A. Sartika, “Optimalisasi Metode Deteksi Wajah berbasis Pengolahan Citra untuk Aplikasi Identifikasi Wajah pada Presensi Digital,” SETRUM, vol. 7, no. 1, pp. 107–116, 2018.
B. Yoga, B. Putranto, W. Hapsari, K. Wijana, F. Teknik, P. Studi, T. Informatika, U. Kristen, and D. Wacana, “Segmentasi warna citra dengan deteksi warna hsv untuk mendeteksi objek.”
G. F. Shidik, F. N. Adnan, R. A. Pramunendar, C. Supriyanto, and P. N. Andono, “Deteksi Api dengan MultiColorFeature s , Background Subtraction dan Morphology,” vol. 2013, no. November, pp. 134–140, 2013.