2021 - IEEE Fellow For contributions to network resource management and adaptive service delivery
Filip De Turck mainly investigates Computer network, Heuristics, Distributed computing, Cloud computing and Quality of experience. His research on Computer network often connects related areas such as Multimedia. His work carried out in the field of Distributed computing brings together such families of science as Algorithm, Scalability and Resource allocation.
His biological study spans a wide range of topics, including Augmented reality, Software deployment, Management system, Mobile computing and Mobile device. His Software deployment research includes elements of Computer security and Telecommunications. His study in Quality of experience is interdisciplinary in nature, drawing from both Video quality, Real-time computing, Bandwidth and Hypertext Transfer Protocol.
Filip De Turck mainly focuses on Computer network, Distributed computing, Cloud computing, Scalability and The Internet. His research in Computer network tackles topics such as Multimedia which are related to areas like Access network. His Distributed computing research is multidisciplinary, incorporating perspectives in Software deployment, Resource allocation, Service, Grid computing and Scheduling.
The Cloud computing study combines topics in areas such as Software as a service and Provisioning. His Quality of experience study combines topics from a wide range of disciplines, such as Real-time computing, Video quality and Heuristics. As part of his studies on Heuristics, he often connects relevant subjects like Reinforcement learning.
Filip De Turck focuses on Distributed computing, Cloud computing, The Internet, Scalability and Virtual reality. His Distributed computing research integrates issues from Network architecture, Provisioning, Software deployment and Smart city. His Cloud computing study incorporates themes from Data center, Orchestration, Enhanced Data Rates for GSM Evolution and Scheduling.
His research on The Internet also deals with topics like
His primary areas of study are Distributed computing, The Internet, Virtual reality, Cloud computing and Video quality. His studies in Distributed computing integrate themes in fields like Network architecture, Layer, Software deployment, Provisioning and Efficient energy use. His research in Virtual reality intersects with topics in Representation, Quality of service, Real-time computing and Heuristics.
He has included themes like Standardization, Orchestration, Scalability and Smart city in his Cloud computing study. Filip De Turck has researched Video quality in several fields, including Computer network, Bandwidth and Viewport. His work deals with themes such as Encoder and Anomaly detection, which intersect with Computer 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.
Network Function Virtualization: State-of-the-Art and Research Challenges
Rashid Mijumbi;Joan Serrat;Juan-Luis Gorricho;Niels Bouten.
IEEE Communications Surveys and Tutorials (2016)
VNF-P: A model for efficient placement of virtualized network functions
Hendrik Moens;Filip De Turck.
conference on network and service management (2014)
Cloudlets: bringing the cloud to the mobile user
Tim Verbelen;Pieter Simoens;Filip De Turck;Bart Dhoedt.
mobile cloud computing & services (2012)
Optimizing smart energy control strategies for plug-in hybrid electric vehicle charging
Kevin Mets;Tom Verschueren;Wouter Haerick;Chris Develder.
network operations and management symposium (2010)
#Exploration: a study of count-based exploration for deep reinforcement learning
Haoran Tang;Rein Houthooft;Davis Foote;Adam Stooke.
neural information processing systems (2017)
Access/edge node supporting multiple video streaming services using a single request protocol
Erwin Alfons Constant Six;Tom Van Caenegem;Wim Van De Meerssche;Filip De Turck.
(2006)
Design and evaluation of algorithms for mapping and scheduling of virtual network functions
Rashid Mijumbi;Joan Serrat;Juan-Luis Gorricho;Niels Bouten.
ieee conference on network softwarization (2015)
Impact of real-time electronic alerting of acute kidney injury on therapeutic intervention and progression of RIFLE class.
Kirsten Colpaert;Eric A. Hoste;Kristof Steurbaut;Dominique Benoit.
Critical Care Medicine (2012)
VIME: Variational Information Maximizing Exploration
Rein Houthooft;Xi Chen;Yan Duan;John Schulman.
neural information processing systems (2016)
Dynamic microcell assignment for massively multiplayer online gaming
Bart De Vleeschauwer;Bruno Van Den Bossche;Tom Verdickt;Filip De Turck.
network and system support for games (2005)
If you think any of the details on this page are incorrect, let us know.
We appreciate your kind effort to assist us to improve this page, it would be helpful providing us with as much detail as possible in the text box below:
Ghent University
Ghent University
Ghent University
Ghent University
Ghent University
Ghent University
Ghent University
Ghent University
KU Leuven
Université Laval
University of Bremen
IBM (United States)
Nvidia (United States)
University of Palermo
Central South University
Stanford University
Kyoto University
Massey University
University of Trier
Marine Biological Association of the United Kingdom
Oregon State University
Colorado State University
University of Kentucky
University of Bari Aldo Moro
Max Planck Society
University of California, Irvine