advanced wireless technologies challenges
Post on 12-Apr-2017
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ORCIP is an open infrastructure of the National Roadmap of Research Infrastructures of Strategic Relevance that will allow the scientific community and industry to test, measure and certificate advanced optical & radio systems.
Who can benefit:SMEs:
The infrastructure will be an instrument to lower the barrier of entry of SMEs in innovation activities in the next-generation telecommunications areas.
Universities and Research Institutes: Increasing the capability of generating research results and/or project
gathering; Training
Operators & Large Enterprise: Field and Lab trials involving vendors and operators; Collaborative R&D projects.
ORCIP - Optical Radio Convergence Infrastructure for Communications and Power Delivering
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ORCIP - Optical Radio Convergence Infrastructure for Communications and Power Delivering
Technical areas covered: 5G solutions for radio and converged access networks Machine to machine communications Multi-gigabit wireless transmission using Millimeter Waves Wireless power transmission
ORCIP testbed purpose:• Combines the realism of physical testing with the scalability and flexibility of
simulations.• Allows the network reconfiguration for heterogeneous wireless and optical
communications with multiple protocol stacks for next generation physical technologies.
• Provide researchers and industry with a platform infrastructure, which allows testing and evaluation in an integrated (realistic) way: taking into account every layer from physical devices to applications.
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2G, 3G, WiMAX,LTE, IMT-A The testbed will include a set
of radio heads deployed within the University of Aveiro Campus and connected through optical fibre to a central location where all the processing and interfacing is performed.
Transparent support of the legacy (2G, 3G) and the future high capacity RATs (4G, 5G) over a single infrastructure
Allows the implementation and testing of Cooperative and Massive MIMO
Allows protocol and service testing
ORCIP LAB
Services provided • Characterization and testing facilities for
Optical and Wireless Devices
• Integrated testing of Optical-Wireless communication networks and applications.
ORCIP - Optical Radio Convergence Infrastructure for Communications and Power Delivering
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Physical radio & optical deployment Simulation Domain
Central Laboratory(Transmission interfaces, Automatized measurements)
FPGA-based platforms and development
Support
Interfacing For Remote Access
This allows developers to characterize solutions based on existing systems and also to evaluate novel proposals at the algorithmic or protocol level for future systems
Interfacing for existing systems, as well as a framework to develop novel algorithms and hardware for future developments
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ORCIP - Optical Radio Convergence Infrastructure for Communications and Power Delivering
Services provided (I)Characterization and testing facilities for Optical and Wireless Devices• The laboratory support of the testbed includes a set of programmable
equipment allowing testing devices for optical and wireless communications systems.
• The laboratory will also allow remote access for testing. • A support team from IT will receive the devices to be tested and prepare the
experimental test setup to be remotely controlled and measured.
Integrated testing of Optical-Wireless communication networks• Dynamic characterization of the network by using KPIs. • The services provided will include: Set-up of the system to be evaluated by
including the appropriate functionalities in the central room and configuration of the radio-heads; Integration of physical signals in the simulators if needed; test running and result collection.
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ORCIP - Optical Radio Convergence Infrastructure for Communications and Power Delivering
Services provided (II)Integrated testing of Optical-Wireless communication applications• Application and service testing for different network resources. • The central unit connected to the physical radio head development will be
equipped with transceivers of several commercial systems, allowing telecommunication service providers to test specific applications.
• Wireless Power Transmission (WPT) technologies and strategies
Training in wireless, optical communications and integrated wireless optical networks• Training courses tailored to the industry; • Modules to be integrated in the curriculum of academic courses both at the
undergraduate and graduate levels.
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Paulo Monteiropaulo.monteiro@ua.pt
Atílio Gameiroamg@ua.pt
Nuno Borges de Carvalhonbcarvalho@ua.pt
Marcelino Pousampousa@av.it.pt
Pedro Miguel Cruzpcruz@av.it.pt
If you have any questions or need more information please contact
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