با سلام خدمت کاربران در صورتی که با خطای سیستم پرداخت بانکی مواجه شدید از طریق کارت به کارت (6037997535328901 بانک ملی ناصر خنجری ) مقاله خود را دریافت کنید (تا مشکل رفع گردد).
دسته بندی:
مدیریت بحران - Crisis Management
سال انتشار:
2018
عنوان انگلیسی مقاله:
Development and Implementation of a DECATASTROPHIZE platform and tool for the management of disasters or multiple hazards
ترجمه فارسی عنوان مقاله:
توسعه و پیاده سازی یک پلتفرم دیکتاتوری فیزیکی و ابزار برای مدیریت بلایای طبیعی و یا خطرات متعدد
منبع:
Sciencedirect - Elsevier - International Journal of Disaster Risk Reduction,Accepted manuscript,doi:10.1016/j.ijdrr.2018.05.011
نویسنده:
A. Damalas, C. Mettas, E. Evagorou, S. Giannecchini, C. Iasio, M. Papadopoulos, K. Alexandra, D. Hadjimitsis
چکیده انگلیسی:
Research studies using a Geo-Spatial Early Warning Decision Support System (GE-DSS) based
platform and tool to integrate and link decision makers, Emergency Operation Centres (EOCs),
Operational Resources (OR) in the field for multi-hazard or disaster management in accordance
relative to the New European Union Civil Protection Mechanism (UCPM) priorities have neither
been explored nor implemented. The goal of the DECATASTROPHIZE (DECAT) platform is to
use a GE-DSS to assess, prepare for and respond to multiple and/or simultaneous natural and
man-made hazards and disasters in a synergistic way on one multi-platform, distributed and
integrated framework. The main results of the DSS platform include:1) GE-DSS use-case
analyses, workflows and functionalities for early warning, decision making and rapid mapping, 2)
methodologies for rapid assessment and mitigation of impacts, and 3) Spatial Data Infrastructures
(SDI) from Cyprus for disseminating geospatial data and information about various types of
multi-hazards with dedicated capabilities aimed to support impact assessment as well as
emergency management based on activities suitable for overall operational scenarios.
In addition to integrating the a) GE‐DSS, b) EOCs, and c) OR in the field, the DECAT
methodological framework software also integrated hazard/risk assessment with the common
operational picture. The paper aims to introduce the GE-DSS prototype resulting from the
implementation of these requirements, resulting by reuse, improvement and extension of Open
Source SDI codes. It has been already tested in all of DECAT participating countries. The
objectives achievement level was evaluated by analysing the test performed by Cyprus Civil
Defense (CCD).
The DECAT project aimed to a) demonstrate the assessment and mitigation of impact of natural
disasters, b) discuss and develop effective warning systems decision making and rapid
notification for risk resilience at all levels, c) stimulate exchange of ideas and knowledge transfer
on all phases of the disaster management cycle including disaster research, and risk reduction at
all geographical scales—local, national and international, d) assess multi-disaster risk and
impacts from a multidisciplinary and multi-faceted perspective, e) develop multi-disaster risk
reduction strategies and techniques.
Keywords: Disaster management, Geo-spatial Early Warning Decision Support System, Multi Hazard or Disaster Risk Assessment, Humanitarian Aid and Civil Protection (ECHO), European Union (EU) Civil Protection Mechanism
قیمت: رایگان
توضیحات اضافی:
تعداد نظرات : 0