Wireless Communications and Mobile Computing

Emergency Networks and Future Public Safety Systems


Publishing date
01 Aug 2019
Status
Published
Submission deadline
29 Mar 2019

Lead Editor

1University of Modena and Reggio Emilia, Modena, Italy

2The Hong Kong Polytechnic University, Hung Hom, Hong Kong

3CERI/LIA University of Avignon, Avignon, France


Emergency Networks and Future Public Safety Systems

Description

Natural or man-made disasters, CBRN (Chemical, Biological, Radiological, and Nuclear), can cause many casualties not only in urban areas and massive destruction in critical infrastructures. Earthquakes have been responsible for more than 30% of the total fatalities from natural disasters in the last 30 years. Terrorist attacks, especially in high-rise buildings, can be responsible for a large number of entrapped people. Entrapment can also occur as the result of collapsed structures due to accidental or deliberate explosions (e.g., collapsed mines, technical failures, and confined spaces).

Protection of critical infrastructures, on one side, and prompt emergency response, on the other, play a fundamental role in saving human lives, protecting properties, and recovering from system failure.

In past events, PPDR (Public Protection and Disaster Relief) Agencies, for example, fire brigades, ambulance service, and the police, have always had many difficulties in effectively doing their work, because of technical and organizational issues. Interoperability among first responders belonging to different teams has always been very difficult, as well as coordination actions among Agencies. In addition, managing and recovery of collapsed terrestrial telecommunication infrastructures has always been a major issue to solve in crisis events.

Ideally, Future Public Safety Systems should be interoperable, secure, and resilient for voice and data communications, supporting broadband communications and services. New systems must address both mission critical and non-mission critical situations in an integrated and uniform way.

Therefore the development and setup of advanced telecommunications and networking technologies for emergency networks as support of Future Public Safety Systems are among the most important tasks to face.

This special issue aims to collect high quality papers from researchers and experts working in the field of public safety, emergency response, protection, relief, and recovery of critical infrastructures. Results from research activities, demonstrations, test bed, and prototype testing are encouraged by universities, research institutes, industries, and companies.

Potential topics include but are not limited to the following:

  • Wireless networks at the service of effective first-responder work
  • Ad hoc emergency network for crisis events
  • 4G/5G-based emergency networks
  • Software Defined Networking/Network Function Virtualization for PPDR systems
  • Sensor networks for environmental monitoring
  • Drone deployment for crisis events
  • Positioning systems (LPS, GPS, etc.) for crisis management process
  • New communication infrastructure and infrastructures-less architectures for future emergency networks
  • Satellite communications for disaster events
  • Secure communications in emergency networks
  • Critical infrastructure resilience and survivability
  • Networking for disaster management
  • Interoperability (radio spectrum, wireless technologies, and network architectures) for crisis response
  • New social media and wireless technologies for crisis response and Search and Rescue (SAR) activities

Articles

  • Special Issue
  • - Volume 2019
  • - Article ID 1647092
  • - Editorial

Emergency Networks and Future Public Safety Systems

Maurizio Casoni | Song Guo | Abderrahim Benslimane
  • Special Issue
  • - Volume 2019
  • - Article ID 9767404
  • - Research Article

Tool for Recovering after Meteorological Events Using a Real-Time REM and IoT Management Platform

Yosvany Hervis Santana | David Plets | ... | Wout Joseph
  • Special Issue
  • - Volume 2019
  • - Article ID 7080249
  • - Research Article

Sensing Coverage Algorithm of Sparse Mobile Sensor Node with Trade-Off between Packet Loss Rate and Transmission Delay

Kehua Zhao | Yourong Chen | ... | Zhangquan Wang
  • Special Issue
  • - Volume 2019
  • - Article ID 7810546
  • - Review Article

LMR and LTE for Public Safety in 700 MHz Spectrum

Aizaz U. Chaudhry | Roshdy H. M. Hafez
  • Special Issue
  • - Volume 2019
  • - Article ID 8587932
  • - Research Article

Fast Multiattribute Network Selection Technique for Vertical Handover in Heterogeneous Emergency Communication Systems

Igor Bisio | Andrea Sciarrone
  • Special Issue
  • - Volume 2019
  • - Article ID 7521513
  • - Research Article

Deploying a Reliable UAV-Aided Communication Service in Disaster Areas

Vicente Mayor | Rafael Estepa | ... | German Madinabeitia
  • Special Issue
  • - Volume 2019
  • - Article ID 2729370
  • - Research Article

Access Time Analysis of MCPTT Off-Network Mode over LTE

Yishen Sun | Wesley Garey | ... | Priam Varin
  • Special Issue
  • - Volume 2019
  • - Article ID 6206854
  • - Research Article

Processing and Communication Delays in EWS: On the Performance of the Earthcloud Prototype

Martin Klapez | Carlo Augusto Grazia | ... | Matteo Cozzani
  • Special Issue
  • - Volume 2019
  • - Article ID 1408784
  • - Research Article

Next Generation Emergency Services Based on the Pan-European Mobile Emergency Application (PEMEA) Protocol: Leveraging Mobile Positioning and Context Information

Urban Sedlar | James Winterbottom | ... | Mojca Volk
  • Special Issue
  • - Volume 2019
  • - Article ID 7802843
  • - Research Article

Resource Scheduling for Postdisaster Management in IoT Environment

J. Sathish Kumar | Mukesh A. Zaveri
Wireless Communications and Mobile Computing
 Journal metrics
Acceptance rate34%
Submission to final decision80 days
Acceptance to publication38 days
CiteScore1.470
Impact Factor1.396
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