HYPOCENTER RELOCATION, DETERMINATION OF VELOCITY MODEL AND CORRECTION STATION IN GEDE VOLCANO FOR DECEMBER 2017 DATA
Reny and Wahyu Srigutomo
Modeling and Inversion Laboratory,
Physics of Earth and Complex Systems,
Faculty of Mathematics and Natural Sciences, Bandung Institute of Technology,
Jalan Ganesha Street number 10 Bandung, Indonesia, 40132
Abstract
The distribution of the volcanoes in indonesia gives positive impacts in the form of fertile land where many residents live to grow crops. Besides having positive impacts, there are also negative impacts in the form of natural disasters. Improvement in mitigation of natural disasters is needed to avoid any form of harm and undesired losses. Information on the accuracy of earthquake parameters is an important part of natural disaster mitigation efforts. Hypocenter relocation of earthquakes is a step to improve the accuracy of earthquake parameter information. The relocation of hypocenters earthquake is performed using the Coupled Velocity-Hypocenter method. The research area is Gede volcano which is included as type A active volcanoes. The data were processed using GAD and VELEST 3.3 software resulted in epicenters that were spread around Gede and Pangrango volcanoes. The hypocentre were distributed between -2.5 ‒ 5.2 km depths based on GAD calculated. After relocation using VELEST 3.3, they were distributed between 1.0 ‒ 10.5 km depth. The calculated. The calculated magnitudes of volcanic earthquakes occurred in December 2017 vary between 0.6 to 2.7. the difference between the initial and final velocity models is small. After station correction step, the velocity profiles beneath the most of station is indicated as sedimentary layers, and beneath of the peak station, it is indicated as instrusive rocks.
Keywords: Volcano, hypocenter, epicenter, method, GAD, correction, station, and Coupled Velocity-Hypocenter
Topic: Earth and Planetary Sciences