The Spatial Data Sharing Web Feature Service in Earthquake Disaster Prevention and Mitigation

This article, which is based on the science of informatics and environmental technologies, deals with the implementation of informatics in environmental science and practice. It focuses on web-based GIS spatial data sharing application system design and its development, which records and represents specific environmental information with emphasis on habitats and land cover. The system development was made by using JavaScript, PHP as programming languages and Google Maps API. The application provides centralized environmental information with habitats and land cover. It addresses ordinary users and scientists, that not only have the willing to expand their knowledge in the field but also they have the privilege to explore the research area over the map. The users can render the overlay information of spatial habitat and land cover data layers, execute zooming, panning, and information querying functions. Its aim is to offer, to any interested citizen, scientist or organization, direct and reliable environmental information.

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A Data Sharing Model of Minority Multidisciplinary Data Based on WebGIS

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.513-517.2224 ◽

2014 ◽

Vol 513-517 ◽

pp. 2224-2227 ◽

Cited By ~ 1

Author(s):

Yi Zhang ◽

Yu Weng

Keyword(s):

Data Sharing ◽

Spatial Data ◽

Heterogeneous Data ◽

Heterogeneous Databases ◽

Management Systems ◽

Data Display ◽

Data Management Systems ◽

Multidisciplinary Data ◽

Unified View ◽

Multiple Field

With the multiple field databases resources to be enriched, users hope to access and use these databases freely and comprehensively. But phased establishment of application and particularity of Application results in inconsistent application platform and heterogeneous data management systems . To make users access databases transparently, the data Integration of heterogeneous databases is the problems being solved. The paper proposes a model of data sharing providing the user with a unified view and establishes webGIS service, making the multidisciplinary and spatial data display validly and solidly.

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The changing face of geographic information on the web: a breakthrough in spatial data sharing

The Electronic Library ◽

10.1108/02640479910329987 ◽

1999 ◽

Vol 17 (6) ◽

pp. 365-371 ◽

Cited By ~ 5

Author(s):

Martie Pienaar ◽

Pieter van Brakel

Keyword(s):

Data Sharing ◽

Spatial Data ◽

Geographic Information ◽

The Web

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Book Review.Mapping the determinants of spatial data sharingBy Uta Wehn de Montalvo (2003)

Africa Development ◽

10.4314/ad.v30i3.22237 ◽

2005 ◽

Vol 30 (3) ◽

Author(s):

Yoichi Mine

Keyword(s):

Data Sharing ◽

Spatial Data

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A study on the Status of Earthquake Drills for Special Education Classes in Taiwan Elementary Schools

10.5194/egusphere-egu2020-2790 ◽

2020 ◽

Author(s):

Kuo-Chen Ma ◽

Mei-Hung Wang ◽

Mei-Hsiang Lee ◽

Mo-Hsiung Chuang

Keyword(s):

Special Education ◽

Elementary Schools ◽

Special Education Teachers ◽

Physical Environment ◽

External Support ◽

Disaster Prevention ◽

Earthquake Disaster ◽

Mentally Disabled ◽

The Status ◽

United Nations System

<p>Under the influences of natural disasters, disabled people are often the majority of sufferers when a serious disaster happens. Third UN World Conference on Disaster Risk Reduction (3WCDRR) calls for agencies of the United Nations system, academia, the private sector, civil society, and people with disabilities to integrate the issue of the physically and mentally disabled into the new global framework for disaster reduction. Taiwan is one of the regions in the world where earthquakes occur very frequently. According to the statistics of the Taiwan Central Weather Bureau, an average of 23,000 earthquakes occurs in Taiwan each year, including about 1,000 sensational earthquakes. Earthquake prevention is therefore the essential task for campus disaster prevention and rescue programs. The school should recognize different evacuation abilities for students in special education classes, and know their special needs in earthquake disaster drills and emergency response ability.</p><p>In this study, four special education classes in elementary schools were selected as examples to understand the current situation in the engagement with earthquake drills by way of interviews and questionnaires. The evacuation abilities of students in special classes are classified into four categories based on the issues of physical environment, manpower arrangement, and both students&#8217; and teachers&#8217; educations in earthquake prevention. On the basis of the results, the conclusions regarding to those three issues can be drawn as follows. For the first issue concerning the physical environment, the teaching space for special education classes should consider the students&#8217; evacuation abilities. Second, both internal and external support manpower should understand the students' evacuation capabilities and give different assistance based on their abilities. Last, the education goals in earthquake disaster prevention for students in different categories should be different. The earthquake drills should be well arranged in the aspects of time, place, equipment, and manpower assistance. It is important to note that special education teachers and assistants should have good knowledge in earthquake disaster prevention, understand the appropriate response to earthquake disaster, and strive to ensure the safety of students and themselves in the evacuation process.</p>

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Development of Urban Disaster Prevention Systems in Japan – from the Mid-1980s

Journal of Disaster Research ◽

10.20965/jdr.2006.p0046 ◽

2006 ◽

Vol 1 (1) ◽

pp. 46-71 ◽

Cited By ~ 4

Author(s):

Itsuki Nakabayashi ◽

Keyword(s):

Disaster Management ◽

Urban Areas ◽

Local Governments ◽

Large Scale ◽

Lessons Learned ◽

Disaster Prevention ◽

Earthquake Disaster ◽

Tokyo Metropolitan ◽

Metropolitan Government

This treatise outlines developments in disaster management focusing on earthquake disaster measures taken by the Japanese and Tokyo Metropolitan Governments since the 1980s. The 1978 Large-Scale Earthquake Measures Special Act on conditions for predicting the Tokai Earthquake significantly changed the direction of earthquake disaster measures in Japan. The Tokyo Metropolitan Government undertook its own earthquake disaster measures based on lessons learned from the 1964 Niigata Earthquake. In the 1980s, it began planning urban development disaster management programs for upgrading areas with high wooden houses concentration - still a big problem in many urban areas of Japan - which are most vulnerable to earthquake disasters. The 1995 Great Hanshin-Awaji Earthquake in Kobe brought meaningful insight into both to earthquake disaster measures by the Japanese Government and by the Tokyo Metropolitan Government and other local governments nationwide. Long-term predictions concerning possible earthquake occurrence have been conducted throughout Japan and new earthquake disaster measures have been adopted based on this long-term prediction. The Tokyo Government has further completely revised its own earthquake disaster measures. As a review of measures against foreseeable earthquake disasters based on developments in disaster management measures, this treatise provides invaluable insights emphasizing urban earthquake disaster prevention developed in Japan over the last 30 years that readers are sure to find both interesting and informative in their own work.

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