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exploring_lora [2018/09/30 10:28] – [3.1. Modifying the Radio Parameters] samerexploring_lora [2018/10/06 13:45] – [1.2. Software Tools] samer
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 In order to design and implement experiments with LoRa, you will use the following devices:   In order to design and implement experiments with LoRa, you will use the following devices:  
  
-  * Arduino Mega (x2).+  * Arduino Mega or Arduino Duemilanove (x2).
   * LoRa shields from [[http://www.dragino.com/products/module/item/102-lora-shield.html|Dragino]] (x2).   * LoRa shields from [[http://www.dragino.com/products/module/item/102-lora-shield.html|Dragino]] (x2).
  
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   * Give the main characteristics of the LoRa shield from Dragino (www.dragino.com).   * Give the main characteristics of the LoRa shield from Dragino (www.dragino.com).
   * What type of Antenna are you using? Explain the corresponding characteristics.    * What type of Antenna are you using? Explain the corresponding characteristics. 
-  * Give an estimated cost of your platform.+  * Give an estimated cost of your devices.
 </WRAP> </WRAP>
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 ==== -. Software Tools ==== ==== -. Software Tools ====
  
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 Unzip the RadioHead library and copy it to your sketchbook library folder as detailed in [[https://www.arduino.cc/en/Guide/Libraries]]. Unzip the RadioHead library and copy it to your sketchbook library folder as detailed in [[https://www.arduino.cc/en/Guide/Libraries]].
- 
-<WRAP center round tip 75%> 
-Note well the location of the library folder on your computer. In the following, you will be required to modify source files located in this folder.  
-</WRAP> 
 ==== -. Installation ==== ==== -. Installation ====
  
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   * What is the relation between processing gain and spreading factor in LoRa modulation? Explain.   * What is the relation between processing gain and spreading factor in LoRa modulation? Explain.
   * How does the spreading factor impact the coverage of a LoRa transmitter?    * How does the spreading factor impact the coverage of a LoRa transmitter? 
-  * For each of the three possible configurations of your LoRa device, what is the transmission bit rate? Explain your computation.+  * What is the transmission bit rate for each of the following configurations of your LoRa device? Explain your computation. 
 +    * Configuration 1: channel bandwidth = 125 kHz, spreading factor = 7, coding rate = 4/5 
 +    * Configuration 2: channel bandwidth = 500 kHz, spreading factor = 7, coding rate = 4/5 
 +    * Configuration 3: channel bandwidth = 125 kHz, spreading factor = 12, coding rate = 1/2
   * Compute the receiver sensitivity, assuming the following parameters: channel bandwidth = 125 kHz, spreading factor = 7, coding rate = 4/5, bit error rate (BER) target = 10<sup>-4</sup>, and receiver noise figure = 6 dB. Refer to this {{ :1705.05899.pdf | article}} to determine the mapping between the BER and the SNR.   * Compute the receiver sensitivity, assuming the following parameters: channel bandwidth = 125 kHz, spreading factor = 7, coding rate = 4/5, bit error rate (BER) target = 10<sup>-4</sup>, and receiver noise figure = 6 dB. Refer to this {{ :1705.05899.pdf | article}} to determine the mapping between the BER and the SNR.
   * Compare the computed sensitivity to that provided by the {{ :an1200.22.pdf |Semtech Application Note AN1200.22}} for the same parameters.   * Compare the computed sensitivity to that provided by the {{ :an1200.22.pdf |Semtech Application Note AN1200.22}} for the same parameters.
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 Download the {{ :sketch-1819.zip | basic sketches}} that implement a simple LoRa communication between the two devices: a client and a server. Open the sketches with Arduino IDE. Make sure to choose the correct ''Board'' and ''Port'' in the ''Tools'' menu.  Download the {{ :sketch-1819.zip | basic sketches}} that implement a simple LoRa communication between the two devices: a client and a server. Open the sketches with Arduino IDE. Make sure to choose the correct ''Board'' and ''Port'' in the ''Tools'' menu. 
  
-Take a look at the source code in ''rf95_client.ino'' and ''rf95_server.ino''. Particularly, the ''setup'' function configures the radio parameters of your LoRa devices:+Take a look at the source code in ''rf95_client.ino'' and ''rf95_server.ino''. Particularly, the following extract from the ''setup'' function configures the radio parameters of your LoRa devices:
    
   * Central frequency   * Central frequency
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 ==== -. Time on Air ==== ==== -. Time on Air ====
  
-In this section, you will measure the Time on Air (ToA) that is given by the time necessary to transmit a message on the radio interface . You will assess the impact of the spreading factor, bandwidth, coding rate, and message size on the ToA.+In this section, you will measure the Time on Air (ToA) that is given by the time necessary to transmit a message on the radio interface. You will assess the impact of the spreading factor, bandwidth, coding rate, and message size on the ToA.
  
 Start by implementing a function on the client that measures the time necessary for sending a message. For example, you can use the [[https://www.arduino.cc/en/Reference/Micros| micros()]] function available in the arduino libraries. Now, you can modify one of the parameters (spreading factor, bandwidth, coding rate, message size) and record the impact on the ToA. Note well that you may need to repeat the experiment multiple times in order to obtain the statistical distribution. Start by implementing a function on the client that measures the time necessary for sending a message. For example, you can use the [[https://www.arduino.cc/en/Reference/Micros| micros()]] function available in the arduino libraries. Now, you can modify one of the parameters (spreading factor, bandwidth, coding rate, message size) and record the impact on the ToA. Note well that you may need to repeat the experiment multiple times in order to obtain the statistical distribution.
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 In this section, you will measure the coverage of LoRa under different radio configurations. 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. Now, you should run the experiment for three different radio configurations: such configurations should ensure different reliability levels (high, medium, and low reliability). +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: such configurations should provide different reliability levels (high, medium, and low reliability). 
  
 <WRAP center round help 100%> <WRAP center round help 100%>
exploring_lora.txt · Last modified: 2021/10/20 12:52 by samer