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perccom_summer_school_2018:group5:start [2018/06/13 23:12]
ckugblenu 		perccom_summer_school_2018:group5:start [2018/06/14 12:20] (current)
minarady
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-**Title:**  Budget of LPWAN Architectures\\+**Title:**  Budget of IoT LPWAN Architectures\\
 **Author:** Rady, Mina\\  **Author:** Rady, Mina\\ 
 **Supervisor(s):** Professor Francis Lepage; Dr. Jean-Philippe Georges\\ **Supervisor(s):** Professor Francis Lepage; Dr. Jean-Philippe Georges\\
 **Hosting Institution:** Center for Research and Automatic Control of Nancy\\ **Hosting Institution:** Center for Research and Automatic Control of Nancy\\
 **Abstract:**  In this paper, we propose a model for the total budget of IoT LPWAN architectures to estimate their real economic and environmental costs. Based on a systems engineering view of an IoT sensor node we provide a comprehensive model that estimates the total operational expenditure (OpEx) of generally any network of sensor nodes while taking into account the variation in technological parameters. We also show that non-radio components may interfere with network Quality of Service (QoS) and we provide verified theoretical framework for accurately predicting and controlling Internet of Things (IoT) node behavior. We provide an optimization model that is guaranteed to find least OpEx-expensive link assigned in an LPWAN IoT connected-star topology with heterogeneous End Device (ED) configurations. We also show that significant budget and environmental hazardous waste savings can be achieved through seemingly passive network changes such as introducing few gateways (GWs) or removing an unneeded timestamp from packet payload.\\ **Abstract:**  In this paper, we propose a model for the total budget of IoT LPWAN architectures to estimate their real economic and environmental costs. Based on a systems engineering view of an IoT sensor node we provide a comprehensive model that estimates the total operational expenditure (OpEx) of generally any network of sensor nodes while taking into account the variation in technological parameters. We also show that non-radio components may interfere with network Quality of Service (QoS) and we provide verified theoretical framework for accurately predicting and controlling Internet of Things (IoT) node behavior. We provide an optimization model that is guaranteed to find least OpEx-expensive link assigned in an LPWAN IoT connected-star topology with heterogeneous End Device (ED) configurations. We also show that significant budget and environmental hazardous waste savings can be achieved through seemingly passive network changes such as introducing few gateways (GWs) or removing an unneeded timestamp from packet payload.\\
-**Paper:** [[https://www.doria.fi/|Insert link to thesis paper]].\\+**Paper:** [[https://www.dropbox.com/s/scl5ror83apbvp8/RADY%20Mina%20-%20Budget%20of%20IoT%20Low%20Power%20Wide%20Area%20Network%20Architectures-%20IEEE.pdf?dl=0|Link to thesis paper]].\\
  
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