Lena Wosinska mostly deals with Computer network, Wavelength-division multiplexing, Passive optical network, Efficient energy use and Distributed computing. Her research investigates the connection between Computer network and topics such as Energy consumption that intersect with problems in Path protection. She combines subjects such as Time-division multiplexing, Multiplexing and Electronic engineering with her study of Wavelength-division multiplexing.
The various areas that Lena Wosinska examines in her Passive optical network study include Access network and Quality of service, Bandwidth, Dynamic bandwidth allocation. Her Distributed computing research is multidisciplinary, incorporating elements of Scalability, Data center, Provisioning, Integer programming and Routing and wavelength assignment. Her Networking hardware study combines topics in areas such as Node and Network topology.
Her primary areas of investigation include Computer network, Communications system, Passive optical network, Wavelength-division multiplexing and Distributed computing. Computer network is represented through her Access network, Network topology, Provisioning, Network architecture and Reliability research. Within one scientific family, she focuses on topics pertaining to Backhaul under Communications system, and may sometimes address concerns connected to Heterogeneous network and Energy consumption.
The study incorporates disciplines such as Optical performance monitoring, Telecommunications and Dynamic bandwidth allocation in addition to Passive optical network. Her Wavelength-division multiplexing research focuses on Electronic engineering and how it connects with Photonics. Her work in Distributed computing addresses issues such as Routing and wavelength assignment, which are connected to fields such as Physical layer.
The scientist’s investigation covers issues in Computer network, Communications system, Distributed computing, Provisioning and Network topology. Her Computer network research integrates issues from Control reconfiguration, Robustness and Backup. Her Communications system study combines topics from a wide range of disciplines, such as Wireless, Routing and Slicing.
Her Distributed computing research is multidisciplinary, relying on both Transport network, Resource allocation, Wavelength-division multiplexing, Multiplexing and Integer programming. Her Provisioning research includes elements of Crosstalk, Latency, Networking hardware and Packet switching. The various areas that Lena Wosinska examines in her Network topology study include Heuristics and Reinforcement learning.
Her main research concerns Communications system, Computer network, Distributed computing, Network topology and Heuristics. Her Communications system study combines topics from a wide range of disciplines, such as Passive optical network, Latency, Field, Real-time computing and Signal. Her study looks at the relationship between Passive optical network and fields such as Last mile, as well as how they intersect with chemical problems.
Computer network is closely attributed to Throughput in her research. The study incorporates disciplines such as Routing, Node, Provisioning, Efficient energy use and Integer programming in addition to Distributed computing. Her research integrates issues of Agile software development, Core, Optical amplifier, Optical networking and Transceiver in her study of Network topology.
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A comparison of dynamic bandwidth allocation for EPON, GPON, and next-generation TDM PON
B. Skubic;Jiajia Chen;J. Ahmed;L. Wosinska.
IEEE Communications Magazine (2009)
Cost vs. reliability performance study of fiber access network architectures
Jiajia Chen;L. Wosinska;C. Machuca;M. Jaeger.
IEEE Communications Magazine (2010)
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)
Physical-layer security in evolving optical networks
Nina Skorin-Kapov;Marija Furdek;Szilard Zsigmond;Lena Wosinska.
IEEE Communications Magazine (2016)
A new approach to optical networks security: attack-aware routing and wavelength assignment
Nina Skorin-Kapov;Jiajia Chen;Lena Wosinska.
IEEE ACM Transactions on Networking (2010)
Energy-Efficient WDM Network Planning with Dedicated Protection Resources in Sleep Mode
Ajmal Muhammad;Paolo Monti;Isabella Cerutti;Lena Wosinska.
global communications conference (2010)
DISCUS: an end-to-end solution for ubiquitous broadband optical access
Marco Ruffini;Lena Wosinska;Mohand Achouche;Jiajia Chen.
IEEE Communications Magazine (2014)
Is backhaul becoming a bottleneck for green wireless access networks
Sibel Tombaz;Paolo Monti;Fabricio S. Farias;Matteo Fiorani.
international conference on communications (2014)
Mobile backhaul in heterogeneous network deployments: Technology options and power consumption
Paolo Monti;Sibel Tombaz;Lena Wosinska;Jens Zander.
international conference on transparent optical networks (2012)
Spectrum allocation policy modeling for elastic optical networks
Adriana Rosa;Cicek Cavdar;Solon Carvalho;Joao Costa.
High Capacity Optical Networks and Emerging/Enabling Technologies (2012)
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