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start [2021/03/03 11:45] lcardosostart [2023/03/22 14:42] (current) lcardoso
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-# Welcome to the FIT/CorteXlab Wiki+# Welcome to the FIT/CorteXlab
  
 This Wiki provides general information and end-user tutorials concerning the FIT/CorteXlab testbed.   This Wiki provides general information and end-user tutorials concerning the FIT/CorteXlab testbed.  
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 ===== What is FIT/CorteXlab? ===== ===== What is FIT/CorteXlab? =====
  
-The FIT/CorteXlab testbed is one of 9 testbeds of the [[http://fit-equipex.fr/english|Future Internet of Things (FIT) Initiative]]. All the testbeds are dedicated to radio communication research but CorteXlab is the only one specifically designed for [[http://en.wikipedia.org/wiki/Software-defined_radio|Software Defined]] and [[http://en.wikipedia.org/wiki/Cognitive_radio|Cognitive]] Radio research.+The FIT/CorteXlab testbed is one of 9 testbeds of the [[http://fit-equipex.fr/english|Future Internet of Things (FIT) Initiative]]. All the testbeds are dedicated to radio communication research but FIT/CorteXlab is the only one specifically designed for [[http://en.wikipedia.org/wiki/Software-defined_radio|Software Defined]] and [[http://en.wikipedia.org/wiki/Cognitive_radio|Cognitive]] Radio research.
  
-With its 180m² EM shielded room that ensures experiment reproducibility and its 40 high-end SDR-capable radio nodes, CorteXlab provides a unique setup to experiment on new state-of-the-art radio techniques. +With its 180m² EM shielded room that ensures experiment reproducibility and its 40 high-end SDR-capable radio nodes, FIT/CorteXlab provides a unique setup to experiment on new state-of-the-art radio techniques. 
  
 More info on the official FIT/CorteXlab website: www.cortexlab.fr. More info on the official FIT/CorteXlab website: www.cortexlab.fr.
 +
 +A recent video presentation of FIT/CorteXlab (and the S3-CAP framework) can be found [[https://youtu.be/7kcKY1l5KN0|here]].
  
 ===== Why do I need FIT/CorteXlab? ===== ===== Why do I need FIT/CorteXlab? =====
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   * **Because it ensures reproducibility:**     * **Because it ensures reproducibility:**  
-As the room is isolated from the outer world, you can experiment on any band from 300MHz to 4GHz with no interference, thus running the exact same experiment twice will give you the exact same results. +As the room is isolated from the outer world, you can experiment on any band from 300MHz to 4GHz with no interference, thus running the exact same experiment twice will give you the exact same (statistical) results. 
  
   * **Because you can do everything from home:**     * **Because you can do everything from home:**  
-All systems in CorteXlab are fully automated and the testbed is accessible from the Internet for everyone so once you get an account you just need your PC and an Internet connection to use it!+All systems in FIT/CorteXlab are fully automated and the testbed is accessible from the Internet for everyone so once you get an account you just need your PC and an Internet connection to use it!
  
   * **Because it's free to use!**   * **Because it's free to use!**
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    * [[access|Access the testbed]]    * [[access|Access the testbed]]
    * [[Reserve|Book the testbed]]    * [[Reserve|Book the testbed]]
-   * [[tutorials|Follow some CorteXlab tutorials]]+   * [[tutorials|Follow some FIT/CorteXlab tutorials]]
  
 ===== Recent publications using FIT/CorteXlab ===== ===== Recent publications using FIT/CorteXlab =====
  
 +* [[https://hal.inria.fr/hal-03876369/|Slotted, synchronised and modular framework for the evaluation of channel access policies in dense IoT network using FIT/CorteXlab]], A Paris et al., 2022
 * [[https://hal.inria.fr/hal-03117090/|Deep Learning-based Transmitter identification on the physical layer]], C Morin et al., 2020 * [[https://hal.inria.fr/hal-03117090/|Deep Learning-based Transmitter identification on the physical layer]], C Morin et al., 2020
 * [[https://hal.inria.fr/hal-02916171/file/URSI_GASS2020_CITI_Hutu.pdf|Distributed beamforming for wireless power transfer]], F Hutu et al., 2020 * [[https://hal.inria.fr/hal-02916171/file/URSI_GASS2020_CITI_Hutu.pdf|Distributed beamforming for wireless power transfer]], F Hutu et al., 2020
 * [[https://hal.archives-ouvertes.fr/hal-02977808/|Study of Distributed Beamforming for Wireless Power Transfer in Presence of RF Impairments]], F Hutu et al., 2020 * [[https://hal.archives-ouvertes.fr/hal-02977808/|Study of Distributed Beamforming for Wireless Power Transfer in Presence of RF Impairments]], F Hutu et al., 2020
 +* [[https://upcommons.upc.edu/handle/2117/178246|Simultaneous information and energy transmission: towards feasible systems]], N Vinyes, 2019
 +* [[https://ieeexplore.ieee.org/abstract/document/8845293/|Framework for PHY-MAC layers Prototyping in Dense IoT Networks using FIT/CorteXlab Testbed]], O Oubejja et al., 2019
 +* [[https://link.springer.com/chapter/10.1007/978-3-030-25748-4_6|Transmitter classification with supervised deep learning]], C Morin et al., 2019
 +* [[https://ieeexplore.ieee.org/abstract/document/8802007|Beyond LoRa and NB-IoT: Proposals for Future LPWA Systems]], G Vivier et al., 2019
 * [[https://pubs.gnuradio.org/index.php/grcon/article/view/78|Radio Datasets for radioelectric spectrum analysis in Colombian Scenarios using GNU radio into the FIT/CorteXlab]], EP Guillen et al., 2018. * [[https://pubs.gnuradio.org/index.php/grcon/article/view/78|Radio Datasets for radioelectric spectrum analysis in Colombian Scenarios using GNU radio into the FIT/CorteXlab]], EP Guillen et al., 2018.
 * [[https://pubs.gnuradio.org/index.php/grcon/article/view/81|Learning to fingerprint: physical layer identification]], C Morin et al., 2018 * [[https://pubs.gnuradio.org/index.php/grcon/article/view/81|Learning to fingerprint: physical layer identification]], C Morin et al., 2018
-+[[http://theses.insa-lyon.fr/publication/2018LYSEI069/these.pdf|Ultra Narrow Band based IoT networks]], Y Mo, 2018 
 +* [[https://books.google.fr/books?hl=fr&lr=&id=PPpNDwAAQBAJ&oi=fnd&pg=PA225&dq=%22FIT/CorteXlab%22&ots=r08jATN8O7&sig=Uyp78-vwiOI0kgHWPHHHR0Kxl54&redir_esc=y#v=onepage&q=%22FIT%2FCorteXlab%22&f=false|Reliable and Reproducible Radio Experiments in FIT/CorteXlab SDR Testbed: Initial Findings]], L Cardoso et al., 2017 
 +* [[https://ieeexplore.ieee.org/abstract/document/7842419|Coding for Caching in 5G Networks]], Y Fadlallah et al., 2017 
  
 More [[https://scholar.google.com/scholar?hl=fr&as_sdt=0%2C5&q=FIT+CorteXlab&btnG=|here]] More [[https://scholar.google.com/scholar?hl=fr&as_sdt=0%2C5&q=FIT+CorteXlab&btnG=|here]]
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 ===== I have used FIT/CorteXlab, how do I cite it? ===== ===== I have used FIT/CorteXlab, how do I cite it? =====
  
-Mentioning FIT/CorteXlab in your research publications allow us to measure the impact of the usage of the testbed, which in turn keeps the testbed working. :-+Mentioning FIT/CorteXlab in your research publications allow us to measure the impact of the usage of the testbed, which in turn keeps the testbed working. :-
  
 If you have used FIT/CorteXlab in your research publications there are two ways to mention it: If you have used FIT/CorteXlab in your research publications there are two ways to mention it:
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 <code> <code>
-Experiments presented in this paper were carried out using the FIT/CorteXlab testbed. (see http://www.cortexlab.fr). +Experiments presented in this work were carried out using the FIT/CorteXlab testbed. (see http://wiki.cortexlab.fr). 
 </code> </code>
 ==== Via citation: ==== ==== Via citation: ====
start.1614768330.txt.gz · Last modified: 2021/03/03 11:45 by lcardoso

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