His main research concerns Computer network, Distributed computing, Network topology, Cloud computing and Circuit switching. His study in Computer network is interdisciplinary in nature, drawing from both Bandwidth and Transceiver. His Distributed computing study combines topics in areas such as Multiprotocol Label Switching, Path computation element, Optical switch and Routing protocol.
His Network topology study incorporates themes from Virtual machine and Network virtualization. His Cloud computing research includes themes of End-to-end principle, Wireless sensor network, Orchestration and Network packet. His Circuit switching study integrates concerns from other disciplines, such as Networking hardware and OpenFlow.
Ricardo Martinez spends much of his time researching Computer network, Distributed computing, Network topology, Multiprotocol Label Switching and Testbed. He combines subjects such as Virtualization and Cloud computing with his study of Computer network. His research in Distributed computing intersects with topics in Orchestration and Path computation element.
Ricardo Martinez has included themes like Scalability and Packet switching in his Network topology study. The various areas that Ricardo Martinez examines in his Multiprotocol Label Switching study include Algorithm, Ethernet, Blocking and Automatically switched optical network. The Testbed study combines topics in areas such as Label switching, Multiplexing and Optical switch.
Ricardo Martinez mainly focuses on Computer network, Distributed computing, Computer architecture, Orchestration and Cloud computing. Computer network connects with themes related to Space division multiplexing in his study. His Distributed computing research includes elements of Testbed and Virtualization.
Network topology is closely connected to Network media in his research, which is encompassed under the umbrella topic of Virtualization. His Orchestration research incorporates elements of Software and Key. His biological study spans a wide range of topics, including Message queue and Latency.
Ricardo Martinez mainly investigates Distributed computing, Software deployment, Network service, Computer network and Virtual network. His Distributed computing research is multidisciplinary, relying on both Transport network, Networking hardware, Traffic engineering, The Internet and Interoperability. His Software deployment research is multidisciplinary, incorporating elements of Service provider, Server, Service and Process management.
Ricardo Martinez interconnects Enhanced Data Rates for GSM Evolution and Cloud computing in the investigation of issues within Network service. The concepts of his Computer network study are interwoven with issues in Transceiver and Single-mode optical fiber. In his work, Network topology is strongly intertwined with Point of presence, which is a subfield of Virtual network.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
OpenSlice: an OpenFlow-based control plane for spectrum sliced elastic optical path networks.
Lei Liu;Raül Muñoz;Ramon Casellas;Takehiro Tsuritani.
Optics Express (2013)
Challenges and requirements for introducing impairment-awareness into the management and control planes of ASON/GMPLS WDM networks
R. Martinez;C. Pinart;F. Cugini;N. Andriolli.
IEEE Communications Magazine (2006)
Integrated IP/WDM routing in GMPLS-based optical networks
J. Comellas;R. Martinez;J. Prat;V. Sales.
IEEE Network (2003)
Control and management of flexi-grid optical networks with an integrated stateful path computation element and OpenFlow controller [invited]
Ramon Casellas;Ricardo Martinez;Raul Munoz;Ricard Vilalta.
IEEE/OSA Journal of Optical Communications and Networking (2013)
Integrated SDN/NFV management and orchestration architecture for dynamic deployment of virtual SDN control instances for virtual tenant networks [invited]
Raul Munoz;Ricard Vilalta;Ramon Casellas;Ricardo Martinez.
IEEE/OSA Journal of Optical Communications and Networking (2015)
Field Trial of an OpenFlow-Based Unified Control Plane for Multilayer Multigranularity Optical Switching Networks
Lei Liu;Dongxu Zhang;T. Tsuritani;R. Vilalta.
Journal of Lightwave Technology (2013)
Experimental demonstration of an OpenFlow based software-defined optical network employing packet, fixed and flexible DWDM grid technologies on an international multi-domain testbed.
M. Channegowda;R. Nejabati;M. Rashidi Fard;S. Peng.
Optics Express (2013)
SDN-Enabled Sliceable BVT Based on Multicarrier Technology for Multiflow Rate/Distance and Grid Adaptation
Michela Svaluto Moreolo;Josep M. Fabrega;Laia Nadal;Francisco Javier Vilchez.
Journal of Lightwave Technology (2016)
End-to-end SDN orchestration of IoT services using an SDN/NFV-enabled edge node
Ricard Vilalta;Arturo Mayoral;David Pubill;Ramon Casellas.
optical fiber communication conference (2016)
Experimental Translucent-Oriented Routing for Dynamic Lightpath Provisioning in GMPLS-Enabled Wavelength Switched Optical Networks
R. Martinez;R. Casellas;R. Muoz;T. Tsuritani.
Journal of Lightwave Technology (2010)
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