The Philippines, being a locus of typhoons, tsunamis, earthquakes, and volcanic eruptions, is a hotbed of disasters. Natural hazards inflict loss of lives and costly damage to property in the country. The effect of these hazards were witnessed in 2011’s Typhoon Pedring, 2012’s Typhoon Pablo, and the most disastrous storm of the century, 2013’s Typhoon Yolanda. These resulted in a high number of fatalities with economic losses amounting to billions of pesos. Extreme weather is the common factor in these catastrophes. Situated in the humid tropics, the Philippines will inevitably suffer from climate-related calamities similar to those experienced in recent years. With continued development in the lowlands, and growing populations, it is expected that damage to infrastructure and human losses would persist and even rise unless appropriate measures are immediately implemented by government.
In response to President Aquino’s instructions to put in place a responsive program for disaster prevention and mitigation, specifically, for the Philippines’ warning agencies to be able to provide a 6 hour lead-time warning to vulnerable communities against impending floods and to use advanced technology to enhance current geo-hazard vulnerability maps, the Nationwide Operational Assessment of Hazards (NOAH) was launched by the Department of Science and Technology.
NOAH’s mission is to undertake disaster science research and development, advance the use of cutting edge technologies and recommend innovative information services in government’s disaster prevention and mitigation efforts. Though the use of science and technology and in partnership with the academe and other stakeholders, the DOST through Program NOAH is taking a multi-disciplinary approach in developing systems, tools, and other technologies that could be operationalized by government to help prevent and mitigate disasters.
NOAH’s immediate task is to integrate current disaster science research and development projects and initiate new efforts within the DOST to achieve this objective. Presently there are nine(9) component projects under the NOAH program, namely:
1.Hydromet Sensors Development
2.DREAM-LIDAR 3D Mapping
3.Flood NET – Flood Information Network
5.Disaster Management using WebGIS
6.Enhancing Geohazard Mapping through LIDAR and High-resolution Imagery
7.Doppler System Development
8.Landslide Sensors Development
9.Storm Surge Inundation Mapping
10.Weather Information Integration for System Enhancement (WISE)
The current NOAH Program team is composed of the scientist-leaders of these projects. The country’s warning agencies: PAG-ASA and PHIVOLCS are also represented.
Within two years, NOAH shall provide high-resolution flood hazard maps and install 600 automated rain gauges and 400 water level measuring stations for 18 major river basins of the Philippines, namely:
•Marikina River Basin
•Cagayan de Oro River Basin
•Iligan River Basin
•Agno River Basin
•Pampanga River Basin
•Bicol River Basin
•Cagayan River Basin
•Agusan River Basin
•Panay River Basin
•Magaswang Tubig River Basin
•Jalaur River Basin
•Ilog-Hilabangan River Basin
•Agus River Basin
•Davao River Basin
•Mindanao River Basin
•Tagum-Libuganon River Basin
•Tagaloan River Basin
•Buayan-Malungun River Basin
The other river basins of the Philippines will follow soon after the work on the 18 major river basins is completed.
The hazard maps are produced with computer simulations that reflect flood-prone areas discernible at a local scale or community level. Such maps are necessary for localized emergency response, identification of evacuation and access routes, road closures during disaster events, siting of key rescue facilities and comprehensive land use planning. The initial output of Project NOAH is focused on the Marikina Watershed. As of July 6, 2012, streaming data from the automated rain gauges and water level sensors, flood hazard maps overlain on Google Maps, graphical satellite radar and Doppler data forecasts, and translated rain intensity and volume measurements in terms of warning and evacuation level alarms, hours or days ahead of the flood event, are accessible online. The output on the Marikina Watershed will serve as the prototype of the efforts done by NOAH and will be replicated for the entire Philippines. Information generated shall also be transmitted using other media and communication channels. Through the
use of advanced science and technology, NOAH aims to improve disaster management capacity of local governments and assure homeland security by reducing casualties and property loss from extreme hazard events.
The Nationwide Operational Assessment of Hazards (NOAH) program envisions a disaster-free Philippines where communities are empowered through open access to accurate, reliable and timely hazard and risk information.
To develop high-resolution hazard maps for various type of natural hazards using frontier science and cutting-edge technology.
To undertake investigations in meteorological and geological hazards to improve the country’s capability to prevent and mitigate the potentially disastrous impacts of natural hazards.
To systematically simulate, validate, and improve geohazard maps.
To integrate and assist other agencies in identifying meteorological and geological hazards with the ultimate objective of promoting safety in communities affected by natural hazards.
To collaborate with similar institutions or organizations, both national and international, in furtherance of the above purposes.
Participating Agencies and Organizations
5.UP NIGS EML Laboratory
6. ClimateX Project
7.UP NIGS VTEC Laboratory
11.UP Computer Center
14.UK Environment Agency
15.Cabot Institute, Bristol University
16.Institute of Earth and Environmental Sciences, University of Potsdam
17.MediaQuest Holdings Inc.
24.DOST PCHRD OLTrap Index
25.Smart Communications, Inc.
27.Google Crisis Response
30.Rotary Club of Pinamalayan Central
37.Environmental Science for Social Change (ESSC)
38.Pambansang Samahan sa Linggwistika at Literaturang Filipino, Ink.
41.International Organization for Migration
42.Deutsche Gesellschaft für Internationale Zusammenarbeit (GIZ)
1.Australian AID: Metro Manila LiDAR data
2.Collective Strengthening of Community Awareness for Natural Disasters (CSCAND): Metro Manila LiDAR data
3.Government of Japan: JICA
4.Government of Korea: KOICA
Mobile Application Development
1.Project NOAH Android: Rolly Rulete and SMART Communications
2.Ateneo Java Wireless Competency Center: Flood Patrol app for Android
3.ABS-CBN Corporation: Project NOAH app for IOS
4.Pointwest Technologies: Flood Map app for Android/IOS
1.University of the Philippines, Diliman
Address: National Institute of Geological Sciences, P. Velasquez cor C. P. Garcia, University of the Philippines Diliman, Quezon City, Philippines 1101. # Source - DOST