exploring_lora
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| exploring_lora [2021/08/28 09:46] – samer | exploring_lora [2021/08/28 09:46] – [-. Configuring and Running the Lab] samer | ||
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| In the remainder of this lab, you will conduct measurements to validate the obtained theoretical receiver sensitivity. | In the remainder of this lab, you will conduct measurements to validate the obtained theoretical receiver sensitivity. | ||
| - | ===== -. Configuring and Running the Lab ===== | + | ===== - Configuring and Running the Lab ===== |
| ==== - Modifying the Radio Parameters ==== | ==== - Modifying the Radio Parameters ==== | ||
| Line 165: | Line 165: | ||
| * What type of mathematical model enables to theoretically compute the PDR? Verify the obtained results. | * What type of mathematical model enables to theoretically compute the PDR? Verify the obtained results. | ||
| </ | </ | ||
| - | ===== -. Coverage Challenge ===== | + | ===== - Coverage Challenge ===== |
| Start by identifying a set of three geographical locations or Test Points (TP). These TPs should be astutely chosen to explore the limits of LoRa coverage. Then, you should implement a function on the server that measures the ratio of successfully delivered packets or PDR (Packet Delivery Ratio). Now, you should run the experiment for three different radio configurations: | Start by identifying a set of three geographical locations or Test Points (TP). These TPs should be astutely chosen to explore the limits of LoRa coverage. Then, you should implement a function on the server that measures the ratio of successfully delivered packets or PDR (Packet Delivery Ratio). Now, you should run the experiment for three different radio configurations: | ||
exploring_lora.txt · Last modified: 2021/10/20 12:52 by samer