This paper introduces a rapidly deployable wireless network based on Low Altitude Platforms and portable land units to support disaster-relief activities, and to extend capacity during temporary mass events. The system integrates an amalgam of radio technologies such as LTE, WLAN and TETRA to provide heterogeneous communications in the deployment location. Cognitive radio is used for autonomous network con�guration. Sensor networks monitor the environment in real-time during relief activities and provide distributed spectrum sensing capacities. Finally, remote communications are supported via S-band satellite links
We identified use cases where resilient communications systems may help in disaster-preparedness in ...
Abstract—In order to provide an increased capacity for voice users in emergency scenarios, a low-med...
Natural disasters and emergencies create the need for communication between and among the affected p...
This paper introduces a rapidly deployable wireless network based on Low Altitude Platforms and port...
Rapidly deployable and reliable mission-critical communication networks are fundamental requirements...
Emergency situations such as wildfires, water floods, or even terrorist attacks require continuous c...
During a large-scale natural disaster or unexpected events, the terrestrial telecommunications becom...
This paper outlines how an aerial telecommunications network can optimally meet the stringent needs ...
The number of disasters has increased over the past decade where these calamities significantly affe...
AbstractLarge-scale natural disasters present complex challenges for disaster relief communications....
We developed an approach to a resilient communications system for post-disaster situations that make...
High Altitude Platform Stations (HAPS) are expected to conform a third major infrastructure for comm...
Abstract—Aerial-Terrestrial communication networks able to provide rapidly-deployable and resilient ...
Early warning and disaster management needs to acquire data for implementing intervention plans. Sat...
Most times people are unprepared to face natural disasters resulting in chaos, increased number of d...
We identified use cases where resilient communications systems may help in disaster-preparedness in ...
Abstract—In order to provide an increased capacity for voice users in emergency scenarios, a low-med...
Natural disasters and emergencies create the need for communication between and among the affected p...
This paper introduces a rapidly deployable wireless network based on Low Altitude Platforms and port...
Rapidly deployable and reliable mission-critical communication networks are fundamental requirements...
Emergency situations such as wildfires, water floods, or even terrorist attacks require continuous c...
During a large-scale natural disaster or unexpected events, the terrestrial telecommunications becom...
This paper outlines how an aerial telecommunications network can optimally meet the stringent needs ...
The number of disasters has increased over the past decade where these calamities significantly affe...
AbstractLarge-scale natural disasters present complex challenges for disaster relief communications....
We developed an approach to a resilient communications system for post-disaster situations that make...
High Altitude Platform Stations (HAPS) are expected to conform a third major infrastructure for comm...
Abstract—Aerial-Terrestrial communication networks able to provide rapidly-deployable and resilient ...
Early warning and disaster management needs to acquire data for implementing intervention plans. Sat...
Most times people are unprepared to face natural disasters resulting in chaos, increased number of d...
We identified use cases where resilient communications systems may help in disaster-preparedness in ...
Abstract—In order to provide an increased capacity for voice users in emergency scenarios, a low-med...
Natural disasters and emergencies create the need for communication between and among the affected p...