Friedman, Timur (19..-....)
Timur Friedman is on faculty at UPMC Sorbonne Universités (LIP6 and LINCS laboratories), seconded 2014-2016 to Inria Paris. His principal area of research is network measurements. He conducts research in network measurements and heads the PlanetLab Europe testbed.
Vidéos
Présentation de la plateforme EdgNet (Session 1: présentation générale)
EdgeNet est une plateforme d’expérimentation à destination des chercheurs en réseau et en systèmes distribués. Dans la lignée de PlanetLab, EdgeNet met à disposition des noeuds distribués
Webinaire Plateforme Edgenet (session 2: pratique)
Dans ce webinaire, vous retrouvez Maxime Mouchet et Berat Can senel du LIP6 pour un lab edgenet à distance! (suite de la session 1)
4D. Latency - Tools
Part 3: Connectivity, losses, latency, and geolocation 1. Introduction 2. Connectivity 3. Losses 4. Latency A. Introduction B. Components C. Clocks D. Tools 5. Geolocation 6. Conclusion
4B. Flooding: Example tools
Part 4. Bandwidth 4.1 Introduction 4.2 Definitions of bandwidth metrics A. The basics B. Limitations 4.3 End-to-end measurement approaches 4.4 Flooding A. Methods B. Example tools 4.5
4. Flow capture
Part 5. Traffic Measurements 5.1 Introduction 5.2 Packet Capture A. End systems B. Network 5.3 Interface counts 5.4 Flow capture 5.5 Traffic matrix 5.6 Anonymization of packet traces 5
1. Introduction
Part 4. Bandwidth 4.1 Introduction 4.2 Definitions of bandwidth metrics A. The basics B. Limitations 4.3 End-to-end measurement approaches 4.4 Flooding A. Methods B. Example tools 4.5
6. Conclusion
Part 4. Bandwidth 4.1 Introduction 4.2 Definitions of bandwidth metrics A. The basics B. Limitations 4.3 End-to-end measurement approaches 4.4 Flooding A. Methods B. Example tools 4.5
7. Conclusion
Part 5. Traffic Measurements 5.1 Introduction 5.2 Packet Capture A. End systems B. Network 5.3 Interface counts 5.4 Flow capture 5.5 Traffic matrix 5.6 Anonymization of packet traces 5
4B. Latency - Components
Part 3: Connectivity, losses, latency, and geolocation 1. Introduction 2. Connectivity 3. Losses 4. Latency A. Introduction B. Components C. Clocks D. Tools 5. Geolocation 6. Conclusion
3.End-to-end measurement approaches
Part 4. Bandwidth 4.1 Introduction 4.2 Definitions of bandwidth metrics A. The basics B. Limitations 4.3 End-to-end measurement approaches 4.4 Flooding A. Methods B. Example tools 4.5
2B. Packet Capture: Network
Part 5. Traffic Measurements 5.1 Introduction 5.2 Packet Capture A. End systems B. Network 5.3 Interface counts 5.4 Flow capture 5.5 Traffic matrix 5.6 Anonymization of packet traces 5
5. Geolocation
Part 3: Connectivity, losses, latency, and geolocation 1. Introduction 2. Connectivity 3. Losses 4. Latency A. Introduction B. Components C. Clocks D. Tools 5. Geolocation 6. Conclusion