The results in different settings.

The results in different settings.

<div><p>Post-earthquake emergency logistics faces significant challenges such as limited resources, uncertain casualty numbers, and time constraints. Developing a scientific and efficient rescue plan is crucial. One of the key issues is integrating facility location and casualty allocati...

وصف كامل

محفوظ في:
التفاصيل البيبلوغرافية
المؤلف الرئيسي: Tingting Zhang (264633) (author)
مؤلفون آخرون: Yanqiu Liu (783420) (author)
منشور في: 2025
الموضوعات:
Medicine
Cell Biology
Neuroscience
Biotechnology
Cancer
Biological Sciences not elsewhere classified
Mathematical Sciences not elsewhere classified
trauma index score
robust optimization approach
problem size increases
efficient rescue plan
determining hospital locations
case studies based
area rarely explored
emergency medical services
robust optimization model
model &# 8217
corresponding robust model
casualty transportation plans
integrating facility location
xlink "> post
uncertainty budget play
uncertain casualty numbers
stage dynamic location
limited medical resources
limited resources
casualty numbers
medical facilities
model accounts
dynamic changes
deterministic model
casualty classification
allocation model
casualty allocation
time constraints
temporary hospitals
study proposes
significant impact
routing problems
lushan earthquake
key issues
general hospitals
findings show
existing research
disaster areas
data variability
critical role
better address
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الوصف
الملخص:<div><p>Post-earthquake emergency logistics faces significant challenges such as limited resources, uncertain casualty numbers, and time constraints. Developing a scientific and efficient rescue plan is crucial. One of the key issues is integrating facility location and casualty allocation in emergency medical services, an area rarely explored in existing research. This study proposes a robust optimization model to optimize the location of medical facilities and the transfer of casualties within a three-level rescue chain consisting of disaster areas, temporary hospitals, and general hospitals. The model accounts for limited medical resources, casualty classification, and uncertainty in casualty numbers. The Trauma Index Score (TIS) method is used to classify casualties into two groups, and the dynamic changes in their injuries after treatment at temporary hospitals are considered. The objective is to minimize the total TIS of all casualties. A robust optimization approach is applied to derive the corresponding robust model, and its validity is verified through case studies based on the Lushan earthquake. The findings show that data variability and the uncertainty budget play a critical role in determining hospital locations and casualty transportation plans. Temporary hospital capacity significantly influences the objective function more than general hospitals. As the problem size increases, the robust optimization model performs better than the deterministic model. Furthermore, uncertainty in casualty numbers has a more significant impact on serious casualties than moderate casualties. To enhance the model’s applicability, it is extended into a two-stage dynamic location-allocation model to better address the complexity of post-disaster scenarios.</p></div>

مواد مشابهة