• GraSP
    • Signal processing, Graph visualization, Graph, LaTeX, Matlab, GNU Octave
    • Matlab / GNU Octave toolbox to manipulate and visualize signals on graphs. LaTeX package to draw signals.
      • Benjamin Girault, Shrikanth S Narayanan, Antonio Ortega, Paulo Gonçalves, Eric Fleury. GRASP: A Matlab Toolbox for Graph Signal Processing. 2017 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP), Mar 2017, New Orleans, United States. pp.6574-6575, ⟨10.1109/ICASSP.2017.8005300⟩. ⟨hal-01424804⟩
    • University of Southern California
    • Benjamin Girault (benjamin.girault@inria.fr)
    • https://www.grasp-toolbox.org/
  • IoT-LAB aggregation-tools
    • Internet of things
    • IoT-LAB aggregation-tools allow aggregating data results from many nodes at a time. It connects to several tcp connections and handle the received data.
    • Gaetan Harter (gaetan.harter@inria.fr)
    • Eric Fleury (eric.fleury@inria.fr)
    • https://github.com/iot-lab/aggregation-tools
  • IoT-LAB cli-tools
    • Internet of things
    • IoT-LAB cli-tools provide a basic set of operations for managing IoT-LAB experiments from the command-line.
    • Frederic Saint-Marcel (frederic.saint-marcel@inria.fr), Gaetan Harter (gaetan.harter@inria.fr)
    • Eric Fleury (eric.fleury@inria.fr)
    • https://github.com/iot-lab/cli-tools
  • IoT-LAB gateway
    • Internet of things
    • IoT-LAB software embedded on a IoT-LAB gateway node new generation provides the local management of the experiment on that node. It is a software bridge between the IoT-LAB server, the user open node and the control node.
    • Frederic Saint-Marcel (frederic.saint-marcel@inria.fr)
    • https://github.com/iot-lab/iot-lab-gateway
  • IoT-LAB robots
    • Internet of things, Robotics
    • IoT-LAB robots is an embedded robot controler on a Turtlebot2 providing the IoT-LAB node mobility functionnality
    • Université de Strasbourg
    • Julien Vandaele (Julien.Vandaele@inria.fr)
    • https://github.com/iot-lab/
  • Queueing Systems
    • User Interfaces
    • This tool aims at providing a simple web interface to promote the use of our proposed solutions to numerically solve classical queueing systems.
    • Alexandre Brandwajn (alexb@soe.ucsc.edu), Thomas Begin (thomas.begin@inria.fr)
    • Thomas Begin (thomas.begin@inria.fr)
    • http://queueing-systems.ens-lyon.fr/
  • WSNet
    • Network simulator
    • WSNet is a modular event-driven simulator targeted to Wireless Sensor Networks. Its main goals are to offer scalabiliy, extensibility and modularity for the integration of new protocols/hardware models and a precise radio medium simulation. We still hope to find the proper resource to make WSNet evolve into a wireless capillary network simulator suitable for conducting simulations at the urban scale.
    • Rodrigue Domga Komguem (rodrigue.domga-komguem@inria.fr), Fabrice Valois (fabrice.valois@inria.fr)
    • CEA-LETI
    • Guillaume Chelius (guillaume.chelius@inria.fr)
    • https://gforge.inria.fr/projects/wsnet-3/