Kami meluncurkan versi beta dari aplikasi seluler kami, GeoQuake. Anda dapat mencobanya di mana saja di dunia selama satu bulan.
Metode kami memungkinkan peramalan aktivitas seismik dengan tingkat risiko tertentu, termasuk bergantung pada prekursor gempa bumi (getaran kecil). Semakin dekat peristiwa yang diharapkan, semakin akurat kami dapat menilai risikonya.
On the night of February 5-6, 2023, a strong earthquake with destructive consequences devastated southeastern Turkey and northwestern Syria. The seismic activity of magnitude 7.8 on the Richter scale was so strong that tremors were felt throughout the Middle East, especially in Lebanon and Cyprus. A series of first tremors with an epicenter near Gaziantep in southeastern Turkey was followed by a second earthquake of magnitude 7.5 (at 13:24 local time).
Although seismic hazard maps showed strong ground motions in the event of a large magnitude earthquake, the powerful aftershock was very unexpected by seismologists. As a result of two consecutive earthquakes in Turkey, according to the Ministry of Interior Affairs, more than 44,000 people lost their lives. Millions of people were left homeless in the midst of winter- approximately 173,000 buildings were severely damaged or completely destroyed. The catastrophic earthquake was a signal indicating difficulties, heeding warnings from national and international experts. Conclusions were also drawn about the need to control urban planning and construct earthquake-resistant buildings in high-risk seismic zones.
At 2:41 a.m. (local time), a powerful earthquake with a magnitude 7.3 on the Richter Scale hit China's Qinghai. A few hours earlier, a 6.1 magnitude tremor occurred in the sparsely populated Yunnan province of Tibet, leading to several fatalities, over a hundred injuries and the evacuation of 20,000 local residents to safe regions. A more powerful earthquake in densely populated Qinghai, followed by two aftershocks of magnitude 4.9, caused the loss of 160 lives. More than 500 people were injured and tens of thousands were left homeless. The region is considered highly vulnerable to earthquakes due to the collision of the Indian and Eurasian tectonic plates, which form the extensive Himalayan Mountain range.
An earthquake with a magnitude of 7.1 on the Richter scale struck in the Chinese province of Xinjiang, bordering Kyrgyzstan at 2 a.m. (local time). The epicenter was located 140 km from Aksu, at a depth of 27 km. Shortly after the first tremor, three powerful aftershocks measuring 5.5, 5.1, and 5.0 were recorded. The earthquake was felt in various regions of Xinjiang, including the administrative center Urumqi and major cities like Hotan and Kashgar. The tremors were noticeable throughout Central Asia and India, and caused panic among residents of Astana and Bishkek. The Ministry of Health of Kazakhstan reported that 44 people with various injuries of mild and moderate severity sought medical assistance in Almaty. In the immediate vicinity of the epicenter, approximately 50 houses were destroyed, 78 were partially damaged. Several dozen injured people sought help.
The events of January 23, 2024 in Xinjiang province indicate that not only Chinese municipal authorities, but also the governments of other countries did not implement earthquake early warning systems. Emergency alerting the population on their phones via messages could reduce the number of casualties and minimize panic among residents of high-rise buildings.
Seismically Active Africa: Unearthing Geological History and Echoes of Past Tremors
Dancing Earth: Seismically Active Zones of Europe - A Detailed Overview
Seismically Active Asia: A Tectonic Crucible Forged by Collisions and Subductions, and Echoes of Historical Tremors
Seismic Zones of South America: A Detailed Overview of Risks, Regions, and Preparedness
Seismic Zones of North America: A Comprehensive Overview and Preparedness Guide
Mexico Earthquake Preparedness: How the Country Deals with Frequent Seismic Threats
Metode yang mendasari teknologi komputer ini didasarkan pada pengenalan parameter fisik baru yang dihitung berdasarkan statistik seismik. Ini juga melibatkan konsep sistem seismik, di mana hukum baru telah dirumuskan — hukum produksi entropi (S. Ts. Akopian, 1995-2015). Analisis retrospektif menunjukkan bahwa 96% dari 750 gempa bumi kuat dalam sejarah mematuhi hukum ini.
Pola baru memungkinkan pemantauan perkembangan ketidakstabilan seismik dalam ruang dan waktu, memprediksi lokasi, waktu, dan kekuatan gempa bumi, mengecualikan gempa bumi selama 97% dari total waktu persiapan, memantau dan menilai skenario seismik potensial, mengendalikan seismisitas yang dipicu dan diinduksi, mengembangkan peta bahaya seismik dinamis baru, serta memberikan informasi tentang proses persiapan gempa bumi besar, tsunami, dan potensi konsekuensinya.
Cocok untuk pemantauan dan peramalan online tidak hanya untuk gempa bumi tetapi juga tsunami.
Memungkinkan pembuatan peta dinamis bahaya seismik.
Memungkinkan visualisasi proses persiapan gempa bumi besar.
