879 research outputs found
Cognitive Radio for Emergency Networks
In the scope of the Adaptive Ad-hoc Freeband (AAF) project, an emergency network built on top of Cognitive Radio is proposed to alleviate the spectrum shortage problem which is the major limitation for emergency networks. Cognitive
Radio has been proposed as a promising technology to solve
todayâ?~B??~D?s spectrum scarcity problem by allowing a secondary user in the non-used parts of the spectrum that aactully are assigned to primary services. Cognitive Radio has to work in different frequency bands and various wireless channels and supports multimedia services. A heterogenous reconfigurable System-on-Chip (SoC) architecture is proposed to enable the evolution from the traditional software defined radio to Cognitive Radio
Towards Cognitive Radio for emergency networks
Large parts of the assigned spectrum is underutilized while the increasing number
of wireless multimedia applications leads to spectrum scarcity. Cognitive Radio
is an option to utilize non-used parts of the spectrum that actually are assigned to primary
services. The benefits of Cognitive Radio are clear when used in emergency
situations. Current emergency services rely much on the public networks. This is not
reliable in emergency situations, where the public networks can get overloaded. The
major limitation of emergency networks is spectrum scarcity, since multimedia data
in the emergency network needs a lot of radio resources. The idea of applying Cognitive
Radio to the emergency network is to alleviate this spectrum shortage problem
by dynamically accessing free spectrum resources. Cognitive Radio is able to work
in different frequency bands and various wireless channels and supports multimedia
services such as voice, data and video. A reconfigurable radio architecture is proposed
to enable the evolution from the traditional software defined radio to Cognitive Radio
Reconfigurable Flood Wall Inspired by Architected Origami
Recent interest in the art of origami has opened a wide range of engineering applications and possibilities. Shape changing structures based on origami have had a large influence on the drive for efficient, sustainable engineering solutions. However, development in novel macro-scale utilization is lacking compared to the effort towards micro-scale devices. There exists an opening for environmentally actuated structures that improve quality for life of humans and the natural environment.
Specifically, resilient infrastructure systems could potentially benefit from the tailorable properties and programmable reconfiguration of origami-inspired designs. The realm of flood protection and overall water resources management creates a unique opportunity for adaptable structures. A flood protection system, or flood wall, is one application of the origami technique. In many situations, flood protection is visually displeasing and hinders an otherwise scenic natural environment within a cityscape. By applying a permanent, adaptable protection system in flood-prone areas, not only will general aesthetics be conserved, but quick deployment in disaster situations will be ensured. With a rapidly changing climate and an increase in storm disaster events, an efficient flood-protection system is vital.
In this study, simple rigid flood barriers are compared to adaptable wall systems that utilize multi-stable configurations. The flood event is characterized by a surcharge of water that is suddenly introduced–like that of a flash flood–and sustained at steady-state. Small-scale prototypes are tested in a hydraulic flume and compared to a numerical simulation for validation.Ohio State University College of Engineering Undergraduate Research ScholarshipNo embargoAcademic Major: Civil Engineerin
Ontology-based collaborative framework for disaster recovery scenarios
This paper aims at designing of adaptive framework for supporting
collaborative work of different actors in public safety and disaster recovery
missions. In such scenarios, firemen and robots interact to each other to reach
a common goal; firemen team is equipped with smart devices and robots team is
supplied with communication technologies, and should carry on specific tasks.
Here, reliable connection is mandatory to ensure the interaction between
actors. But wireless access network and communication resources are vulnerable
in the event of a sudden unexpected change in the environment. Also, the
continuous change in the mission requirements such as inclusion/exclusion of
new actor, changing the actor's priority and the limitations of smart devices
need to be monitored. To perform dynamically in such case, the presented
framework is based on a generic multi-level modeling approach that ensures
adaptation handled by semantic modeling. Automated self-configuration is driven
by rule-based reconfiguration policies through ontology
An emergency communication system based on software-defined radio
Wireless telecommunications represent an important asset for Public Protection and Disaster Relief (PPDR) organizations as they improve the coordination and the distribution of information among first responders in the field. In large international disaster scenarios, many different PPDR organizations may participate to the response phase of disaster management. In this context, PPDR organizations may use different wireless communication technologies; such diversity may create interoperability barriers and degrade the coordination among first time responders. In this paper, we present the design, system integration and testing of a demonstration system based on Software Defined Radio (SDR) technology and Software Communication Architecture (SCA) to support PPDR operations with special focus on the provision of satellite communications. This
paper describes the main components of the demonstration system, the integration activities as well as the testing scenarios, which were used to evaluate the technical feasibility. The paper also describes the main technical challenges in the implementation and integration of the demonstration system. Finally future developments for this technology and potential deployment challenges are presented.JRC.G.6-Digital Citizen Securit
Developing a neighborhood-scale wireless notification prototype
We outline an innovative approach to thedevelopment of a prototype of a neighborhoodnotification system (NNS). The NNS applicationresiding on smart phones will use software definedradio and cognitive radio components to interfacewith radio frequency transceivers. Mesh networkingis proposed for emergency notification and disasterresponse coordination using NNS. Our focus hasbeen on the IEEE 802.15.4 and the very recent IEEE802.15.5 mesh networking standard for low data rateconnectivity among low power nodes (or nodeswhose power consumption needs to be low). Theinnovation stems from bringing together differenthardware and software components – some of which,like our Software Defined Radio (SDR) platform, arethemselves still evolving and others, like themeshing platform, are very new – to propose anadaptive, reconfigurable, infrastructure-less ad hocwireless solution to emergency communications inthe unlicensed ISM RF band
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