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A Comparison on MANETs’ Service Replication Schemes: Interest versus Topology Prediction
A Cost Model for Distributed Coverage Processing Services
An Evaluation Methodology and Framework for Semantic Web Services Technology
An Interest-Based Load Balancing Mechanism for the Service Distribution Protocol in MANETs
Enabling Trust-Aware Semantic Web Service Selection – A Flexible and Personalized Approach
Enabling Trust-Aware Semantic Web Service Selection – A Flexible and Personalized Approach
Evaluating Semantic Web Service Technologies: Criteria, Approaches and Challenges
Heuristic Geo Query Decomposition and Orchestration in a SOA
Impact of Heterogeneous Mobility Models on the Service Distribution Protocol for MANETs
Information and Management Support for Mass Casualty Incident Scenarios
IntrospectiveViews: An Interface for Scrutinizing Semantic User Models
Measures for Benchmarking Semantic Web Service Matchmaking Correctness (SEALS Best Evaluation Paper Award)
New Service Selection Strategies for the Service Distribution Protocol for MANETs.
Scrutinizing User Interest Models with IntrospectiveViews
SDP Primary Implementation in Microsoft® VisualC++®, A Service Distribution Protocol for MANETs
SDP-Implementation in Opnet® v.1: MANETs’ Service Replication and Load Balancing: Release Notes-User Manual-Programmer Guide
SDP-Implementation in Opnet® v.2, SDP-Based Composite Service Execution in MANETs: Release Notes-User Manual-Programmer Guide
Semantic Enrichment of Social Media Resources for Adaptation
Service Replication in Wireless Mobile Ad Hoc Networks
Supporting Consumers in Providing Meaningful Multi-Criteria Judgments
Information and Management Support for Mass Casualty Incident Scenarios
Title: | Information and Management Support for Mass Casualty Incident Scenarios |
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Authors: | U. Krüger, A.Gabdulkhakova, V. Schau, C. Beckstein |
Source: | 2. Workshop IT-Unterstützung für Rettungskräfte im Rahmen der INFORMATIK 2010 |
Place: | Leipzig |
Date: | 2010-09-01 |
Type: | Workshop Paper |
Abstract: |
Handling highly dynamic scenarios as they arise in mass casualty incident (MCI) situations requires lots of information about the situation and an extremely flexible IT infrastructure that can assist in managing the incident. We show a combination of technologies from different fields of research that have focused on the support of the strategic and tactical level in such situations. We describe the core of the SpeedUp architecture where a planner, a service manager, and an agent-based middleware together support operations managers in an MCI. |
File: | iRettung2010.pdf |