exploring_lora
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exploring_lora [2018/10/22 16:53] – [5. Coverage Challenge] samer | exploring_lora [2019/10/10 07:58] – [3.1. Modifying the Radio Parameters] samer | ||
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==== -. Modifying the Radio Parameters ==== | ==== -. Modifying the Radio Parameters ==== | ||
- | Download the {{ : | + | Download the {{ : |
Take a look at the source code in '' | Take a look at the source code in '' | ||
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* Analyze the obtained results and compare with the theoretical computations. You can superpose the theoretical results and the experimental ones on the same graph. | * Analyze the obtained results and compare with the theoretical computations. You can superpose the theoretical results and the experimental ones on the same graph. | ||
</ | </ | ||
- | ==== -. Coverage ==== | ||
- | In this section, you will measure the coverage of LoRa under different radio configurations. | ||
- | |||
- | Start by identifying a set of five 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: | ||
- | |||
- | <WRAP center round help 100%> | ||
- | * Draw the test points on a map and motivate your choices. | ||
- | * Describe the radio configurations you selected and their impact on the reliability of the transmission. | ||
- | * Visualise the experimental results by plotting the PDR for each TP and each radio configuration. | ||
- | * Analyze the obtained results. | ||
- | </ | ||
==== -. [Classroom activity] Collisions and Packet Delivery Ratio ==== | ==== -. [Classroom activity] Collisions and Packet Delivery Ratio ==== | ||
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===== -. Coverage Challenge ===== | ===== -. Coverage Challenge ===== | ||
- | In this section, you are required to establish a record of LoRa coverage. You can certainly unleash your scientific imagination, | + | 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: |
+ | |||
+ | <WRAP center round help 100%> | ||
+ | * Draw the test points on a map and motivate your choices. | ||
+ | * Describe the radio configurations you selected and their impact on the reliability of the transmission. | ||
+ | * Visualise the experimental results by plotting the PDR for each TP and each radio configuration. | ||
+ | * Analyze the obtained results. | ||
+ | </ | ||
+ | |||
+ | You are now required to establish a record of LoRa coverage. You can certainly unleash your scientific imagination, | ||
* Direct transmission between the two devices is only considered. | * Direct transmission between the two devices is only considered. | ||
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* Supporting live video and screen capture should be used to authenticate the record. | * Supporting live video and screen capture should be used to authenticate the record. | ||
- | You can use the [[https:// | + | You can use the [[https:// |
+ | |||
+ | <WRAP center round todo 60%> | ||
+ | Take a look at this tool [[http:// | ||
+ | </ | ||
<WRAP center round help 100%> | <WRAP center round help 100%> |
exploring_lora.txt · Last modified: 2021/10/20 12:52 by samer