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Catatan Kuliah Umum Rapid Earthquake Magnitude Estimation Using Near Realtime GPS Data oleh Hendy Irawan (http://orcid.org/0000000252312802 (http://orcid.org/0000000252312802)) 9 Agustus 201 Kuliah Umum Rapid Earthquake Magnitude Estimation Using Near Realtime GPS Data Prof. Yusaku Ohta Associate Professor Crustal Physics Laboratory, Research Center for Prediction of Earthquakes and Volcanic Eruptions Tohoku University Acara bertempat di Auditorium BMKG, pada tanggal 9 Agustus 2016, berlangsung dari jam 09:00 WIB sampai dengan jam 13:00 WIB. Live at: http://media.bmkg.go.id/Live.bmkg?ID=2625949045519124 (http://media.bmkg.go.id/Live.bmkg? ID=2625949045519124) www.bmkg.go.id Via Dr. Rahma Hanifa, Dr. Abdul Muhari, Himpunan Mahasiswa Oseanografi ITB, Carmadi Machbub, Ary Setijadi Prihatmanto, Egi Hidayat, Astri Novianty, Irwan Meilano, Irina Rafliana
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Introduction
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Relevansi dengan LSKK Hipotesis sementara yang relevan dengan LSKK, adalah bila Semut/ACT banyak penggunanya (terutama terkumpul di satu area), maka data GPS mereka (yang realtime) berpotensi untuk dimasukkan ke algoritma RAPiD ini untuk menghitung magnitude gempa tanpa seismograf, bahkan lebih akurat dari seismograf Namun saya belum jelas saat konfirmasi apakah hal tersebut mungkin dilakukan (deteksi murni berbasis smartphone, tanpa geostation, tanpa seismograf). :(
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Automatic detection of aftershocks
GSI GEONET realtime analysis system
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Single rectangular fault model
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Slip distribution model
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Data set for the tests
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Result 2003 Tokachioki Earthquake (Mw 8.0)
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Result: Nankai Earthquake (Simulation: Mw 8.2)
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Actual working example of REGARD
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Algoritma REGARD dapat memperkirakan single finite fault model dalam waktu 6 menit.
Application of tFISH to real data
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Effectiveness of combination use of GNSS and offshore tsunami data tFISHRAPID
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Effective combination of various methods
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Agar lebih efektif dan akurat, 4 teknik perlu dikombinasikan: 1. Shortperiod seismic wave 2. GNSS 3. OBPG; GPS buoy 4. Offshore wave gauge; Tide gauge
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Conclusions
Hendy's Questions Konichiwa, Yusaku Ohta sensei. Hendy to moshimas. Bandung kooka daigaku kara mairimashita. Senko wa Denki kougakudes. 1. What is the difference between tFISH, RAPID, and REGARD? 2. What are the sensors support by this technique? Is it possible to use regular GPS/accelerometer/gyro sensors in multiple smartphones? If so, how many sensors/users are needed to have accurate estimation. Douzo yoroshiku onegaishimas. Arigatou gozaimasu. Answer: 1. tFISH > only waterfloor not coseismic model RAPID is from seismic wave can generate coseismic model 2. Using GNSS, GLONASS, etc. in geostation
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