scholarly journals Pendampingan Mitigasi Bencana Gempa Bumi dan Tsunami Berbasis Pengetahuan Lokal pada Masyarakat Rentan Bencana di Kabupaten Mukomuko Bengkulu

2020 ◽  
Vol 4 (1) ◽  
pp. 87-99
Author(s):  
Dian Agustina ◽  
Etis Sunandi ◽  
Sigit Nugroho
Keyword(s):  
Emergency Response ◽  
Warning System ◽  
Large Earthquake ◽  
Disaster Mitigation ◽  
Tsunami Disaster ◽  
Emergency Response Plan ◽  
Tsunami Mitigation ◽  
Evacuation Routes ◽  
Rescue Procedures ◽  
The Impact

The first objective of this activity is to increase knowledge and understanding of the rescue procedures, evacuation routes, and emergency response plans when a large earthquake occurs. The second objective is to increase the knowledge and ability to mobilize available resources. With this knowledge and capability, the community can choose and sort out the resources that must be prioritized, so that losses can be reduced as little as possible. Referring to the results of the study, reducing the impact of earthquake and tsunami disaster risk is greatly influenced by emergency response plan factors, disaster warning system factors, knowledge factors, policy and guidance factors, and the ability of team mobilization. The conclusion obtained from the results of this activity is that the Air Rami Sub-district community gained increased knowledge and understanding of earthquake and tsunami mitigation. This can be seen from the enthusiasm of stakeholders and the public in participating in socialization activities. It is also supported by the Wilcoxon statistical test, the result showed that socialization increases public knowledge in understanding disaster mitigation, especially earthquakes and tsunamis.

Tsunami Disaster Mitigation by Integrating Comprehensive Countermeasures in Padang City, Indonesia

2012 ◽  
Vol 7 (1) ◽  
pp. 48-64 ◽  
Author(s):  
Fumihiko Imamura ◽  
◽  
Abdul Muhari ◽  
Erick Mas ◽  
Mulyo Harris Pradono ◽  
...  
Keyword(s):  
Disaster Mitigation ◽  
Frame Structure ◽  
Earthquake Scenario ◽  
Tsunami Disaster ◽  
Inundation Area ◽  
Residential Population ◽  
Vertical Evacuation ◽  
Evacuation Routes ◽  
Tremor Analysis ◽  
The Impact

This paper describes the results of a comprehensive analysis for tsunami disaster mitigation in Padang City, Indonesia. Assessment consists of several steps, starting from the construction of tsunami hazard maps based on the most probable earthquake scenario in the future. Results are then analyzed to determine the impact on residential population along potential evacuation routes. Next, from the standpoint of hazards, we move to the analysis of human’s vulnerability during evacuation. The term “vulnerability” is associated with available evacuation time. Here, we conducted a static evacuation model using the GIS platform and a dynamic approach using multiagent paradigm. Results of evacuationmodeling suggest that some residents may not have enough time to leave the tsunami inundation area before the first wave comes. We therefore propose using relatively high buildings as vertical evacuation sites. One of potential candidates that survived from a devastated earthquake with 7.6 Mw in 2009 is selected to be further analyzed its antiseismic deficiencies based on design ground motion obtained from micro-tremor analysis and synthesized recorded wave in Padang. As a result, even though the building underwent some damage, the frame structure was able to withstand the shaking and keep the building from collapsing.

TSUNAMI ACEH 2004 SEBAGAI DASAR PENATAAN RUANG KOTA MEULABOH

2013 ◽  
Vol 13 (2) ◽  
Author(s):  
Wisyanto Wisyanto
Keyword(s):  
Coastal Area ◽  
Building Damage ◽  
Tsunami Hazard ◽  
The Road ◽  
Tsunami Disaster ◽  
Landuse Planning ◽  
The Future ◽  
Tsunami Mitigation ◽  
Potential Losses ◽  
The Impact

Tsunami which was generated by the 2004 Aceh eartquake has beenhaunting our life. The building damage due to the tsunami could be seenthroughout Meulaboh Coastal Area. Appearing of the physical loss wasclose to our fault. It was caused by the use dan plan of the land withoutconsidering a tsunami disaster threat. Learning from that event, we haveconducted a research on the pattern of damage that caused by the 2004tsunami. Based on the analysis of tsunami hazard intensity and thepattern of building damage, it has been made a landuse planning whichbased on tsunami mitigation for Meulaboh. Tsunami mitigation-based ofMeulaboh landuse planning was made by intergrating some aspects, suchas tsunami protection using pandanus greenbelt, embankment along withhigh plants and also arranging the direction of roads and setting of building forming a rhombus-shaped. The rhombus-shaped of setting of the road and building would reduce the impact of tsunamic wave. It is expected that these all comprehensive landuse planning will minimize potential losses in the future .

Dynamic Deployment of Smart Inflatable Tsunami Airbags (TABs) for Tsunami Disaster Mitigation

2015 ◽  
Author(s):  
M. Shahinpoor ◽  
H. Asanuma
Keyword(s):  
Tsunami Wave ◽  
Disaster Mitigation ◽  
Viscous Drag ◽  
Tsunami Waves ◽  
Tsunami Disaster ◽  
Air Bags ◽  
Pass Through ◽  
Set Up ◽  
The Impact ◽  
Inflatable Structure

Presented is an initial discussion on dynamic simulation of tsunami air bag deployment in connection with a number of smart inflatable and deployable structures, called tsunami air bags (TAB) that can be rather quickly set up and strongly anchored to the ocean floor to withstand the impact of a tsunami wave and thus protect the buildings and structures on shore. These dedicated inflatable smart structures are designed such that upon tsunami impact they can perform two smart deployment tasks. The first one is for the structure to deploy in the form of a porous structure containing internal folds and pockets and reconfigure due to tsunami impact to perform energy absorption by forcing the tsunami waves to pass through the porous inflatable structure forcing the tsunami waves to lose kinetic energy due to viscous drag and pressurizing the TABs. The second task is related to a special de sign of the inflatable structure that causes it to deploy to either further vertically rise or become a hollow inflatable dam upon the tsunami impact. In these endeavors a wave generation channel was designed and constructed to perform experiments and to simulate tsunami wave impacts on inflatable structures deploying from an underwater location. The initial observation indicates that TABs have a great potential to mitigate tsunami impacts.

EDUCATION FOR DISASTER RISK REDUCTION IN THAILAND

2010 ◽  
Vol 04 (02) ◽  
pp. 61-72 ◽  
Author(s):  
ABSORNSUDA SIRIPONG
Keyword(s):  
Natural Disasters ◽  
Disaster Mitigation ◽  
International Strategy ◽  
Disaster Reduction ◽  
The People ◽  
Educational Processes ◽  
Learn By Doing ◽  
Tsunami Mitigation ◽  
The Impact ◽  
Better Than

Education has been identified by UNESCO as well as the UN/International Strategy for Disaster Reduction (UN/ISDR) under the Hyogo Framework for Action as Key to mitigate the impact of natural disasters. Moreover, education — lifelong education for everyone — is the excellent investment for individuals and society as a whole. It is the least expensive and most efficient way for disaster mitigation, even without sophisticated and expensive technologies for early warning, the people can escape from and mitigate the impact of the natural disasters safely if they know the characteristics of the disasters scientifically. Learning early is better than preparedness, because preparedness needs time and efforts. Aristotle once said "What we have to learn to do, we learn by doing." Education is a part of awareness and preparedness. A warning will be useless, if people do not know what to do in case of an emergency. The educational processes and institutions for tsunami mitigation with some problems in Thailand were described.

scholarly journals Disaster Mitigation Study in School Prone to Earthquake and Tsunami Disaster (Case Study Of SMAN 4 Pariaman)

2020 ◽  
Vol 2 (1) ◽  
pp. 47-55
Author(s):  
Suci Maharani ◽  
Erianjoni Erianjoni
Keyword(s):  
Data Processing ◽  
Quantitative Research ◽  
Disaster Mitigation ◽  
Tsunami Disaster ◽  
A Value ◽  
Earthquake Resistant ◽  
Evacuation Routes ◽  
Evacuation Route ◽  
And Training

SMAN 4 Pariaman is located in an area prone to disasters, especially the earthquake and tsunami. SMAN 4 Pariaman is located on the coast of the West Coast of Sumatra, which belongs to the tsunami red zone in Pariaman City. Based on this, all school residents must be prepared to face the disasters that will occur, especially the earthquake and tsunami. This type of research is a combination of research (Mixed Methods). This research is a step of research by combining two pre-existing forms of research namely qualitative research and quantitative research. The results of the study found 5 main priorities, namely 1) Optimization of meeting the basic needs of disaster management with a value of (5,000), 2) Application of evacuation routes and zones of vulnerability to our position or presence (4,556), 3) Socialization through facilities and infrastructure prepared by parties BPBD with grades (4,412), 4) Make maps to the evacuation sites of schools with grades (4,200), 5) Facilitate evacuation route signs such as posters with grades (3,587). The results of the FGD and data processing by data processing with Bayes method obtained 5 main priorities, namely 1) Schools must incorporate knowledge about disasters into the curriculum or subjects with values ​​(5,100), 2) Improvement of earthquake resistant facilities (4,467), 3) Schools must enter disaster mitigation activities into extracurricular values ​​(3,933), 4) Making maps of tsunami evacuation routes to TES with values ​​(3,923), 5) Conduct TRC education and training with a value of 3,857.

scholarly journals Perencanaan Lanskap Mitigasi Tsunami Berbasis Ekosistem Mangrove di Kota Palu

2020 ◽  
Vol 12 (2) ◽  
pp. 41-53
Author(s):  
Mochammad Azkari Hisbulloh Akbar ◽  
Faisol Abdul Kharis ◽  
Oktavia Putri Rahmawati
Keyword(s):  
Landscape Planning ◽  
Analysis Data ◽  
Coastal Areas ◽  
Disaster Mitigation ◽  
Native Plant ◽  
Planning Stage ◽  
Native Plant Species ◽  
Tsunami Disaster ◽  
Mangrove Ecosystems ◽  
Tsunami Mitigation

The coastal areas are vulnerable areas to disaster threats, especially the geological hazards of earthquakes accompanied by tsunamis. Palu City, which is located on the west coast of Sulawesi, experienced a natural disaster of an earthquake, tsunami, and liquefaction on September 28, 2018. Based on the Map of Disaster Prone Index in Central Sulawesi Province, Palu City is a tsunami-prone area that is crossed by the Palu-Koro Fault. Tsunami disaster mitigation efforts in coastal areas can be done by planting mangrove ecosystems as a green barrier. The purpose of this study is to analyze the characteristics of the coastal landscape in Palu City and plan the landscape of tsunami mitigation based on mangrove ecosystems in Palu City. The method used spatial analysis method and descriptive method, as well as the research stage, consists of preparation, data analysis, data synthesis, and landscape planning stage. The basic concept of tsunami mitigation landscape planning is to reduce or eliminate disaster risk in coastal areas based on mangrove ecosystems. The concept of spatial pattern concept consists of high hazard zones, medium hazard zones, and low hazard zones. The concept of vegetation refers to the diversity of mangrove and native plant species as green open spaces and green barriers.

scholarly journals Collaborative Governance of Coral Reef Management and Rehabilitation in Tsunami Disaster Mitigation Efforts

2020 ◽  
Vol 10 (1) ◽  
pp. 1
Author(s):  
Dodi Robby Hari Ismanto ◽  
Rachma Fitriati
Keyword(s):  
Coral Reef ◽  
Collaborative Governance ◽  
Disaster Mitigation ◽  
Economic Losses ◽  
Reef Management ◽  
Tectonic Plates ◽  
Tsunami Waves ◽  
Tsunami Disaster ◽  
Coral Reef Management ◽  
The Impact

The tsunami is the biggest threat to countries around the world tectonic plates and the ring of fire, including Indonesia. The impact of economic losses and heavy casualties made the tsunami worth watching out. Ecosystem-based tsunami disaster mitigation efforts are deemed necessary, considering that 2/3 of Indonesia consists of the sea. The coral reef is one of the coastal ecosystems that can reduce tsunami waves by up to 50% before it hits coastal areas. However, the current condition of coral reefs is very alarming due to the actions of irresponsible humans. Collaboration between stakeholders is needed to carry out ecosystem-based tsunami disaster mitigation efforts. Collaborative governance becomes an essential issue in efforts to build and improve services in the public sector by involving all relevant stakeholders. The sectoral ego of the stakeholders is no longer relevant to be maintained because each actor has their strengths and weaknesses. Collaboration between actors framed in a collaboration platform by having a principled engagement, shared motivation, and collective capacity will produce better results.

scholarly journals How Industry Collaboration Can Manage an Effective Source Control Emergency Response

2021 ◽  
Vol 2021 (1) ◽  
Author(s):  
James Burroughs ◽  
Andy R Myers
Keyword(s):  
Emergency Response ◽  
Service Providers ◽  
Lessons Learned ◽  
Source Control ◽  
Emergency Response Plan ◽  
Industry Collaboration ◽  
Skilled Personnel ◽  
Control Event ◽  
Tooling Technology ◽  
The Impact

Abstract Responding to a Source Control event requires a significant amount of resources, both in terms of engineering complexity and skilled personnel. The pool of available hardware is ever increasing, not only in quantity but in operational complexity. Service providers store and maintain a range of equipment, including capping stacks, subsea dispersant application tooling, technology to allow landing of capping stacks in shallow water and flowback systems. To mount a response, it is highly likely that these assets would be mobilised from various global locations. It would also require the support from many organisations with expertise in various fields. Industry has invested significantly in workshops and exercises to test and continuously improve the service provisions in place. This paper aims to: Re-visit industry led source control exercises completed to date and identify the impact they have had on preparednessDiscuss key developments industry is taking to tackle complex planning activity, including regional expertise forumsWork through the core subjects that require industry collaboration to develop a successful Source Control Emergency Response Plan (SCERP - detailed below) Industry led exercises & workshops have identified several key items that require detailed analysis to develop a successful SCERP: Response Time Modelling – understanding and planning complex supply chain requirementsResource mapping – identifying global experts who can provide engineering, modelling and operational supportMutual aid – in the event of a mobilisation, how can industry work together to ensure the most experienced people can work collaborativelyEquipment fabrication – whilst there is a range of hardware available, certain scenarios will require the fabrication of specific equipment. How can this be managed and pre-planned?Exercising and testing – how can the above subjects be effectively tested, with industry maximising experience and ensuring continuous development of lessons learned This paper will explore the steps industry has taken to methodically work through these challenges to ensure that preparedness remains a high priority. The range of industry developed guidelines that have also been developed to act as a handrail for planning purposes will be discussed. Whilst planning and executing Source Control exercises can take a significant amount of time and investment, the lessons learned, and experience gained is invaluable not only directly to industry, but wider support organisations (i.e. logistics providers). It is paramount that these lessons are built on and the experience gained is maintained for the future.

TSUNAMI MITIGATION EFFORTS WITH pTA IN WEST SUMATRA PROVINCE, INDONESIA

2010 ◽  
Vol 04 (04) ◽  
pp. 341-368 ◽  
Author(s):  
ABDUL MUHARI ◽  
FUMIHIKO IMAMURA ◽  
DANNY HILMAN NATAWIDJAJA ◽  
SUBANDONO DIPOSAPTONO ◽  
HAMZAH LATIEF ◽  
...  
Keyword(s):  
Wave Height ◽  
Direct Interaction ◽  
Disaster Mitigation ◽  
Capital City ◽  
Tsunami Disaster ◽  
West Sumatra ◽  
Tsunami Risk ◽  
Tsunami Mitigation ◽  
High Level ◽  
International Experts

This paper describes tsunami disaster mitigation in the West Sumatra region with participatory technology assessment (pTA), which promotes direct interaction among member and experts to discuss issues and reach consensus for mitigation through provision of information and knowledge of science and technology. Two areas were examined: Padang, the capital city; and Painan city, a town in southern West Sumatra Province, Indonesia. Tsunami have damaged these areas at least three times: in 1797, a 5–10-m-high tsunami wave height hit the area; in 1833, a 3–4-m-high tsunami came; and in 2007, an 8.4 Mw earthquake generated a local tsunami with maximum wave height of 1.5 m, as observed near Painan. Because of the high level of tsunami risk resulting from its flat topographic conditions, their respective populations of 820,000 people and 15,000 people are developing tsunami mitigation efforts with support of national institutions and international experts. These cities had different starting points and approaches. Efforts were introduced to produce official tsunami hazards maps. Insights from these lessons and ideas arising from the ongoing process after the 2007 South Sumatra and 2009 Padang earthquakes are discussed herein.

Remote sensing and spatial multi-criteria analysis for tsunami vulnerability assessment

2014 ◽  
Vol 23 (3) ◽  
pp. 271-295 ◽  
Author(s):  
Abu Bakar Sambah ◽  
Fusanori Miura
Keyword(s):  
Remote Sensing ◽  
Coastal Areas ◽  
Disaster Mitigation ◽  
Content Type ◽  
Tsunami Disaster ◽  
Inundation Maps ◽  
Vulnerability Map ◽  
Multi Criteria Analysis ◽  
Elevation Model ◽  
The Impact

Purpose – The purpose of this paper is to assess the vulnerability of the Kesennuma area in Japan to a tsunami disaster and to map the area of inundation. Design/methodology/approach – Digital elevation model (DEM) data and ALOS image were used to create maps of the parameters of this study area: elevation, slope, coastal proximity, river, and land use. An analytical hierarchy process was used to assign weights to each parameter and a spatial multi-criteria analysis was applied through cell-based modelling for vulnerability mapping. Findings – The vulnerability map shows that 17.679 km2 of the area could be inundated by a tsunami. High vulnerability areas were mostly found in coastal areas with a sloping coast and a cape area. A low elevation and the presence of rivers or water channels are factors that increase the impact of tsunamis. Inundation areas were predicted to spread in areas identified as having either high vulnerability or slightly high vulnerability. Research limitations/implications – Because of the limited geospatial data, the authors encourage further studies using DEM data with a high spatial resolution. Practical implications – The results of this research can be used as basic information for disaster mitigation and urban planning in coastal areas. Originality/value – This research creates a new approach for assessing which areas could be inundated by tsunamis, based on the vulnerability map generated through remote sensing and spatial multi-criteria analysis. Moreover, the parameters used are very close to those of actual inundation maps.

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