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gnu_radio_lora_dynamic_phy_layer [2021/06/15 16:55] pestevegnu_radio_lora_dynamic_phy_layer [2021/06/16 09:49] pesteve
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 ## Pull the docker image ## Pull the docker image
  
-In order to follow this tutorial, we will use the docker image found on [Dockerhub](https://hub.docker.com/repository/docker/estevep/lora_dyn_phy-cxlb). +In order to follow this tutorial, we will use the docker image found on [Dockerhub](https://hub.docker.com/repository/docker/estevep/lora_dyn_phy-cxlb), which includes the CorteXlab toolchain, alongside a [GitHub repository](https://github.com/AmauryPARIS/LoRa_PHY_Cxlb/) properly configured
  
 Thanks to docker, it is possible to deploy a suitable environment on CorteXlab, with gnuradio and needed software. Thanks to docker, it is possible to deploy a suitable environment on CorteXlab, with gnuradio and needed software.
  
-The necessary commands have already been executed on the given image, so it is not necessary to modify it or to commit and push a new image. However, if you want to create new scenarios or applications, follow the guidelines in the section below. If not, go directly to the [[gnu_radio_lora_dynamic_phy_layer#create_sc|create scenario]] section.+The necessary commands have already been executed on the given image, so it is not necessary to modify it or to commit and push a new image. However, if you want to create new scenarios or applications, follow the guidelines in the section below. If not, go directly to the [[gnu_radio_lora_dynamic_phy_layer#create_sc|scenario]] section.
  
 ## Create your docker image ## Create your docker image
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 If you want to modify this scenario, for example in order to automatize the experiment, check out the first tutorial on how to use docker with CorteXlab [[gnu_radio_docker_benchmark_example#create_the_scenario|here]]. It explains the functioning of the `scenario.yaml` file and the other possibilities it offers. If you want to modify this scenario, for example in order to automatize the experiment, check out the first tutorial on how to use docker with CorteXlab [[gnu_radio_docker_benchmark_example#create_the_scenario|here]]. It explains the functioning of the `scenario.yaml` file and the other possibilities it offers.
  
-For more info on where these nodes are located inside the platform, please check the node position map at the home of this wiki.+For more info on where these nodes are located inside the platform, please check the node position map at the home of this wiki [[doc#node_position_map|here]].
  
 Assuming your account has been correctly created, you can now copy the folder with the scenario file into the Airlock SSH front-end:  Assuming your account has been correctly created, you can now copy the folder with the scenario file into the Airlock SSH front-end: 
gnu_radio_lora_dynamic_phy_layer.txt · Last modified: 2021/06/23 15:58 by pesteve
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