His main research concerns Computer network, The Internet, Computer security, Scalability and Router. His work on Multicast, Routing table and Longest prefix match as part of general Computer network study is frequently linked to Analysis method, bridging the gap between disciplines. His The Internet study combines topics in areas such as Distributed computing, Network topology, Real-time computing, Entropy and Video quality.
When carried out as part of a general Computer security research project, his work on Anonymity is frequently linked to work in Psychological resilience, therefore connecting diverse disciplines of study. His study explores the link between Scalability and topics such as Node that cross with problems in Packet switching, Asynchronous Transfer Mode, Active networking, Memory bandwidth and Gigabit. Bernhard Plattner has researched Router in several fields, including Internet Protocol and Internet traffic.
His primary areas of investigation include Computer network, Distributed computing, The Internet, Computer security and Active networking. His Computer network study typically links adjacent topics like Wireless ad hoc network. Bernhard Plattner is involved in the study of Distributed computing that focuses on Unicast in particular.
His studies examine the connections between The Internet and genetics, as well as such issues in Network packet, with regards to Router. His Active networking research is multidisciplinary, incorporating elements of Network architecture, Software deployment, Service, Network management and Network simulation. His Node research is multidisciplinary, incorporating perspectives in Embedded system and Mobile device.
His primary scientific interests are in Computer network, Computer security, Distributed computing, The Internet and Testbed. His Computer network research includes elements of Wireless network and Throughput. His work on Data Protection Act 1998 as part of general Computer security research is frequently linked to TRACE, bridging the gap between disciplines.
His work deals with themes such as Static routing, Multipath routing, Device to device, Controller and Dissemination, which intersect with Distributed computing. His research in The Internet intersects with topics in Telecommunications network, Protocol stack, Reconfigurable computing and Embedded system. His studies in Testbed integrate themes in fields like Simulation and OpenFlow.
Bernhard Plattner mainly investigates Computer network, Testbed, Throughput, Environmental resource management and Field. His Computer network study frequently draws parallels with other fields, such as Distributed computing. His Testbed research integrates issues from Protocol stack, Quality of experience, OpenFlow, Software-defined networking and Unicast.
His Throughput study incorporates themes from Real-time computing, Real Time Streaming Protocol and Multicast. His study looks at the relationship between Field and fields such as Mobile device, as well as how they intersect with chemical problems. His Computer security study combines topics from a wide range of disciplines, such as The Internet and Backbone 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.
Scalable high speed IP routing lookups
Marcel Waldvogel;George Varghese;Jon Turner;Bernhard Plattner.
acm special interest group on data communication (1997)
The VersaKey framework: versatile group key management
M. Waldvogel;G. Caronni;Dan Sun;N. Weiler.
IEEE Journal on Selected Areas in Communications (1999)
Router plugins: a software architecture for next-generation routers
Dan Decasper;Zubin Dittia;Guru Parulkar;Bernhard Plattner.
IEEE ACM Transactions on Networking (2000)
Introducing MorphMix: peer-to-peer based anonymous Internet usage with collusion detection
Marc Rennhard;Bernhard Plattner.
workshop on privacy in the electronic society (2002)
Entropy based worm and anomaly detection in fast IP networks
A. Wagner;B. Plattner.
workshops on enabling technologies: infrastracture for collaborative enterprises (2005)
Service discovery in mobile ad hoc networks: a field theoretic approach
V. Lenders;M. May;B. Plattner.
world of wireless mobile and multimedia networks (2005)
Large-scale vulnerability analysis
Stefan Frei;Martin May;Ulrich Fiedler;Bernhard Plattner.
acm special interest group on data communication (2006)
A scalable high-performance active network node
D.S. Decasper;B. Plattner;G.M. Parulkar;Sumi Choi.
IEEE Network (1999)
Network resilience: a systematic approach
P. Smith;D. Hutchison;J. P. G. Sterbenz;M. Schöller.
IEEE Communications Magazine (2011)
Efficient security for large and dynamic multicast groups
G. Caronni;K. Waldvogel;D. Sun;B. Plattner.
workshops on enabling technologies infrastracture for collaborative enterprises (1998)
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