Padang in West-Sumatra is one of the priority regions of the German-Indonesian Tsunami Early Warning System project (GITEWS). From 2006 onwards, Alfred Wegener Institute (AWI) as the lead organization within GITEWS for simulation products, has contributed simulation results and inundation map information to the community of Padang. In this memorandum, we intend to communicate latest results of our simulations
This study is to validate the tsunami model with extensive field observation data gathered from the ...
The numerical simulation code TsunAWI was developed in the framework of the German-Indonesian Tsunam...
Tsunamis are not rare events for the Indonesian Archipelago as a consequence of four major plate bou...
The magnitude 7.6 earthquake (USGS) on September 30, 2009 at 10:16 UTC close to the city of Padang i...
Near-field tsunami propagation both in shallow water environments and bore-like wave propagation on ...
Near-field tsunami propagation both in shallow water environments and bore-like wave propagation on ...
Starting in 2005, the GITEWS project (German-Indonesian Tsunami Early Warning System) established fr...
Within the German-Indonesian Tsunami Early Warning System project (GITEWS), a database containing ap...
Padang, West Sumatra, Indonesia is considered to have one of the highest tsunami risks in the world...
An important part within the German-Indonesian Tsunami Early Warning System (GITEWS) project was the...
Nach dem verheerenden Tsunami im Indischen Ozean 2004 wurde das internationale Kooperationsprojekt '...
Starting in 2005, the GITEWS project (German-Indonesian Tsunami Early Warning System) established f...
The numerical simulation code TsunAWI was developed in the framework of the German-Indonesian Tsunam...
The “Last-Mile Evacuation” research project develops a numerical last mile tsunami early warning an...
Indonesia is located along the most prominent active continental margin in the Indian Ocean, the so-...
This study is to validate the tsunami model with extensive field observation data gathered from the ...
The numerical simulation code TsunAWI was developed in the framework of the German-Indonesian Tsunam...
Tsunamis are not rare events for the Indonesian Archipelago as a consequence of four major plate bou...
The magnitude 7.6 earthquake (USGS) on September 30, 2009 at 10:16 UTC close to the city of Padang i...
Near-field tsunami propagation both in shallow water environments and bore-like wave propagation on ...
Near-field tsunami propagation both in shallow water environments and bore-like wave propagation on ...
Starting in 2005, the GITEWS project (German-Indonesian Tsunami Early Warning System) established fr...
Within the German-Indonesian Tsunami Early Warning System project (GITEWS), a database containing ap...
Padang, West Sumatra, Indonesia is considered to have one of the highest tsunami risks in the world...
An important part within the German-Indonesian Tsunami Early Warning System (GITEWS) project was the...
Nach dem verheerenden Tsunami im Indischen Ozean 2004 wurde das internationale Kooperationsprojekt '...
Starting in 2005, the GITEWS project (German-Indonesian Tsunami Early Warning System) established f...
The numerical simulation code TsunAWI was developed in the framework of the German-Indonesian Tsunam...
The “Last-Mile Evacuation” research project develops a numerical last mile tsunami early warning an...
Indonesia is located along the most prominent active continental margin in the Indian Ocean, the so-...
This study is to validate the tsunami model with extensive field observation data gathered from the ...
The numerical simulation code TsunAWI was developed in the framework of the German-Indonesian Tsunam...
Tsunamis are not rare events for the Indonesian Archipelago as a consequence of four major plate bou...