range-testing/plots.py

import json
import re

import matplotlib.pyplot as plt


def plot_rsrp(filename):
    # Load the JSON file
    with open(filename, "r") as file:
        data = json.load(file)

    # Extract distance and RSRP values (convert RSRP values to integers)
    distances = []
    rsrp_prx = []
    rsrp_drx = []
    rsrp_rx2 = []
    rsrp_rx3 = []

    for entry in data:
        try:
            int(float(entry["distance"]))
            rsrp_prx.append(
                -169
                if int(entry["RSRP PRX"].strip()) == -32768
                else int(entry.get("RSRP PRX", -169))
            )
            rsrp_drx.append(
                -169
                if int(entry["RSRP DRX"].strip()) == -32768
                else int(entry.get("RSRP DRX", -169))
            )
            rsrp_rx2.append(
                -169
                if int(entry["RSRP RX2"].strip()) == -32768
                else int(entry.get("RSRP RX2", -169))
            )
            rsrp_rx3.append(
                -169
                if int(entry["RSRP RX3"].strip()) == -32768
                else int(entry.get("RSRP RX3", -169))
            )
            distances.append(int(float(entry["distance"])))
        except (ValueError, KeyError):
            continue

    # Plot the data
    plt.figure(figsize=(10, 6))
    plt.plot(distances, rsrp_prx, label="RSRP PRX", marker="o")
    plt.plot(distances, rsrp_drx, label="RSRP DRX", marker="s")
    plt.plot(distances, rsrp_rx2, label="RSRP RX2", marker="^")
    plt.plot(distances, rsrp_rx3, label="RSRP RX3", marker="d")

    plt.title("RSRP vs Distance")
    plt.xlabel("Distance (m)")
    plt.ylabel("RSRP (dBm)")
    plt.legend()
    plt.grid(True)
    plt.tight_layout()

    # Show the plot
    plt.show()


def plot_median_rsrp(filename):
    # Load the JSON file
    with open(filename, "r") as file:
        data = json.load(file)

    # Extract distance and RSRP values (convert RSRP values to integers)
    distances = []
    rsrps = []

    for entry in data:
        try:
            int(float(entry["distance"]))
            antennas = []
            antennas.append(
                -169
                if int(entry["RSRP PRX"].strip()) == -32768
                else int(entry.get("RSRP PRX", -169))
            )
            antennas.append(
                -169
                if int(entry["RSRP DRX"].strip()) == -32768
                else int(entry.get("RSRP DRX", -169))
            )
            antennas.append(
                -169
                if int(entry["RSRP RX2"].strip()) == -32768
                else int(entry.get("RSRP RX2", -169))
            )
            antennas.append(
                -169
                if int(entry["RSRP RX3"].strip()) == -32768
                else int(entry.get("RSRP RX3", -169))
            )
            antennas.remove(max(antennas))
            antennas.remove(min(antennas))
            if min(antennas) == -169 and max(antennas) != -169:
                avg_rsrp = max(antennas)
            else:
                avg_rsrp = sum(antennas) / len(antennas)
            rsrps.append(avg_rsrp)
            distances.append(int(float(entry["distance"])))
        except (ValueError, KeyError):
            continue

    # Plot the data
    plt.figure(figsize=(10, 6))
    plt.plot(
        distances,
        rsrps,
        label="RSRP Avg RX",
        marker="o",
        color="blue",
    )

    plt.title("RSRP vs Distance")
    plt.xlabel("Distance (m)")
    plt.ylabel("RSRP (dBm)")
    plt.legend()
    plt.grid(True)
    plt.tight_layout()

    # Show the plot
    plt.show()


def plot_rsrq(filename):
    # Load the JSON file
    with open(filename, "r") as file:
        data = json.load(file)

    # Extract distance and RSRQ values (convert RSRQ values to integers)
    distances = []
    rsrq_prx = []
    rsrq_drx = []
    rsrq_rx2 = []
    rsrq_rx3 = []

    for entry in data:
        try:
            int(float(entry["distance"]))
            rsrq_prx.append(
                -20
                if int(entry["RSRQ PRX"].strip()) == -32768
                else int(entry.get("RSRQ PRX", -20))
            )
            rsrq_drx.append(
                -20
                if int(entry["RSRQ DRX"].strip()) == -32768
                else int(entry.get("RSRQ DRX", -20))
            )
            rsrq_rx2.append(
                -20
                if int(entry["RSRQ RX2"].strip()) == -32768
                else int(entry.get("RSRQ RX2", -20))
            )
            rsrq_rx3.append(
                -20
                if int(entry["RSRQ RX3"].strip()) == -32768
                else int(entry.get("RSRQ RX3", -20))
            )
            distances.append(int(float(entry["distance"])))
        except (ValueError, KeyError):
            continue

    # Plot the data
    plt.figure(figsize=(10, 6))
    plt.plot(distances, rsrq_prx, label="RSRQ PRX", marker="o")
    plt.plot(distances, rsrq_drx, label="RSRQ DRX", marker="s")
    plt.plot(distances, rsrq_rx2, label="RSRQ RX2", marker="^")
    plt.plot(distances, rsrq_rx3, label="RSRQ RX3", marker="d")

    plt.title("RSRQ vs Distance")
    plt.xlabel("Distance (m)")
    plt.ylabel("RSRQ (dBm)")
    plt.legend()
    plt.grid(True)
    plt.tight_layout()

    # Show the plot
    plt.show()


def plot_median_rsrq(filename):
    # Load the JSON file
    with open(filename, "r") as file:
        data = json.load(file)

    # Extract distance and RSRQ values (convert RSRQ values to integers)
    distances = []
    rsrqs = []

    for entry in data:
        try:
            antennas = []
            int(float(entry["distance"]))
            antennas.append(
                -20
                if int(entry["RSRQ PRX"].strip()) == -32768
                else int(entry.get("RSRQ PRX", -20))
            )
            antennas.append(
                -20
                if int(entry["RSRQ DRX"].strip()) == -32768
                else int(entry.get("RSRQ DRX", -20))
            )
            antennas.append(
                -20
                if int(entry["RSRQ RX2"].strip()) == -32768
                else int(entry.get("RSRQ RX2", -20))
            )
            antennas.append(
                -20
                if int(entry["RSRQ RX3"].strip()) == -32768
                else int(entry.get("RSRQ RX3", -20))
            )
            antennas.remove(max(antennas))
            antennas.remove(min(antennas))
            if min(antennas) == -169 and max(antennas) != -20:
                avg_rsrq = max(antennas)
            else:
                avg_rsrq = sum(antennas) / len(antennas)
            rsrqs.append(avg_rsrq)
            distances.append(int(float(entry["distance"])))
        except (ValueError, KeyError):
            continue

    # Plot the data
    plt.figure(figsize=(10, 6))
    plt.plot(distances, rsrqs, label="RSRQ Avg RX", marker="o", color="blue")

    plt.title("RSRQ vs Distance")
    plt.xlabel("Distance (m)")
    plt.ylabel("RSRQ (dBm)")
    plt.legend()
    plt.grid(True)
    plt.tight_layout()

    # Show the plot
    plt.show()


def plot_double_iperf(filename):
    # Load the JSON file
    with open(filename, "r") as file:
        data = json.load(file)

    distances = []
    sender = []
    receiver = []
    reverse_distances = []
    reverse_sender = []
    reverse_receiver = []

    for entry in data:
        if "iperf_full" in entry and entry["start_distance"] != "Unknown":
            if "Reverse mode" in entry["iperf_full"]:
                try:
                    reverse_sender.append(float(entry["sender_bitrate"]))
                    reverse_receiver.append(float(entry["receiver_bitrate"]))
                    reverse_distances.append(int(float(entry["start_distance"])))
                except:
                    message = entry["iperf_full"]
                    bitrates = re.findall(r"(\d+\.\d+) Mbits/sec", message)

                    reverse_sender.append(float(bitrates[-2]))
                    reverse_receiver.append(float(bitrates[-1]))
                    reverse_distances.append(int(float(entry["start_distance"])))
            else:
                try:
                    sender.append(float(entry["sender_bitrate"]))
                    receiver.append(float(entry["receiver_bitrate"]))
                    distances.append(int(float(entry["start_distance"])))
                except:
                    message = entry["iperf_full"]
                    bitrates = re.findall(r"(\d+\.\d+) Mbits/sec", message)

                    sender.append(float(bitrates[-2]))
                    receiver.append(float(bitrates[-1]))
                    distances.append(int(float(entry["start_distance"])))

    # Plot the data
    plt.figure(figsize=(10, 6))
    plt.plot(
        distances, sender, label="Avg Uplink Sender Bitrate", marker="o", color="red"
    )
    plt.plot(
        distances,
        receiver,
        label="Avg Uplink Receiver Bitrate",
        marker="s",
        color="darkorange",
    )
    plt.plot(
        reverse_distances,
        reverse_sender,
        label="Avg Downlink Sender Bitrate",
        marker="^",
        color="blue",
    )
    plt.plot(
        reverse_distances,
        reverse_receiver,
        label="Avg Downlink Receiver Bitrate",
        marker="d",
        color="blueviolet",
    )

    plt.title("IPERF vs Distance")
    plt.xlabel("Distance (m)")
    plt.ylabel("Bitrate (Mbits/s)")
    plt.legend()
    plt.grid(True)
    plt.tight_layout()

    # Show the plot
    plt.show()


if __name__ == "__main__":
    filename = "/home/madrigal/repos/range-testing/data/boat_relay_sept_18/test_1758215714_copy.json"

    # plot_double_iperf(filename=filename)
    # plot_rsrp(filename=filename)
    # plot_rsrq(filename=filename)
    plot_median_rsrp(filename=filename)
    plot_median_rsrq(filename=filename)

    filename = "/home/madrigal/repos/range-testing/data/boat_relay_sept_18/test_1758217711_copy.json"

    # plot_double_iperf(filename=filename)
    # plot_rsrp(filename=filename)
    # plot_rsrq(filename=filename)
    plot_median_rsrp(filename=filename)
    plot_median_rsrq(filename=filename)

    filename = "/home/madrigal/repos/range-testing/data/boat_relay_sept_18/test_1758219350_copy.json"

    # plot_double_iperf(filename=filename)
    # plot_rsrp(filename=filename)
    # plot_rsrq(filename=filename)
    plot_median_rsrp(filename=filename)
    plot_median_rsrq(filename=filename)
Initial commit: all py files and gitignore 2025-09-10 10:45:48 -04:00			`import json`
			`import re`

			`import matplotlib.pyplot as plt`


			`def plot_rsrp(filename):`
			`# Load the JSON file`
			`with open(filename, "r") as file:`
			`data = json.load(file)`

			`# Extract distance and RSRP values (convert RSRP values to integers)`
			`distances = []`
			`rsrp_prx = []`
			`rsrp_drx = []`
			`rsrp_rx2 = []`
			`rsrp_rx3 = []`

			`for entry in data:`
			`try:`
Minor plot improvements and fixes 2025-09-17 23:17:52 -04:00			`int(float(entry["distance"]))`
Initial commit: all py files and gitignore 2025-09-10 10:45:48 -04:00			`rsrp_prx.append(`
			`-169`
			`if int(entry["RSRP PRX"].strip()) == -32768`
			`else int(entry.get("RSRP PRX", -169))`
			`)`
			`rsrp_drx.append(`
			`-169`
			`if int(entry["RSRP DRX"].strip()) == -32768`
			`else int(entry.get("RSRP DRX", -169))`
			`)`
			`rsrp_rx2.append(`
			`-169`
			`if int(entry["RSRP RX2"].strip()) == -32768`
			`else int(entry.get("RSRP RX2", -169))`
			`)`
			`rsrp_rx3.append(`
			`-169`
			`if int(entry["RSRP RX3"].strip()) == -32768`
			`else int(entry.get("RSRP RX3", -169))`
			`)`
Minor plot improvements and fixes 2025-09-17 23:17:52 -04:00			`distances.append(int(float(entry["distance"])))`
Initial commit: all py files and gitignore 2025-09-10 10:45:48 -04:00			`except (ValueError, KeyError):`
			`continue`

			`# Plot the data`
			`plt.figure(figsize=(10, 6))`
			`plt.plot(distances, rsrp_prx, label="RSRP PRX", marker="o")`
			`plt.plot(distances, rsrp_drx, label="RSRP DRX", marker="s")`
			`plt.plot(distances, rsrp_rx2, label="RSRP RX2", marker="^")`
			`plt.plot(distances, rsrp_rx3, label="RSRP RX3", marker="d")`

			`plt.title("RSRP vs Distance")`
			`plt.xlabel("Distance (m)")`
			`plt.ylabel("RSRP (dBm)")`
			`plt.legend()`
			`plt.grid(True)`
			`plt.tight_layout()`

			`# Show the plot`
			`plt.show()`


Added median rsrp and rsrq functions, removed unused functions 2025-09-19 09:57:54 -04:00			`def plot_median_rsrp(filename):`
			`# Load the JSON file`
			`with open(filename, "r") as file:`
			`data = json.load(file)`

			`# Extract distance and RSRP values (convert RSRP values to integers)`
			`distances = []`
			`rsrps = []`

			`for entry in data:`
			`try:`
			`int(float(entry["distance"]))`
			`antennas = []`
			`antennas.append(`
			`-169`
			`if int(entry["RSRP PRX"].strip()) == -32768`
			`else int(entry.get("RSRP PRX", -169))`
			`)`
			`antennas.append(`
			`-169`
			`if int(entry["RSRP DRX"].strip()) == -32768`
			`else int(entry.get("RSRP DRX", -169))`
			`)`
			`antennas.append(`
			`-169`
			`if int(entry["RSRP RX2"].strip()) == -32768`
			`else int(entry.get("RSRP RX2", -169))`
			`)`
			`antennas.append(`
			`-169`
			`if int(entry["RSRP RX3"].strip()) == -32768`
			`else int(entry.get("RSRP RX3", -169))`
			`)`
			`antennas.remove(max(antennas))`
			`antennas.remove(min(antennas))`
			`if min(antennas) == -169 and max(antennas) != -169:`
			`avg_rsrp = max(antennas)`
			`else:`
linting 2025-09-19 10:24:01 -04:00			`avg_rsrp = sum(antennas) / len(antennas)`
Added median rsrp and rsrq functions, removed unused functions 2025-09-19 09:57:54 -04:00			`rsrps.append(avg_rsrp)`
			`distances.append(int(float(entry["distance"])))`
			`except (ValueError, KeyError):`
			`continue`

			`# Plot the data`
			`plt.figure(figsize=(10, 6))`
linting 2025-09-19 10:24:01 -04:00			`plt.plot(`
			`distances,`
			`rsrps,`
			`label="RSRP Avg RX",`
			`marker="o",`
			`color="blue",`
			`)`
Added median rsrp and rsrq functions, removed unused functions 2025-09-19 09:57:54 -04:00
			`plt.title("RSRP vs Distance")`
			`plt.xlabel("Distance (m)")`
			`plt.ylabel("RSRP (dBm)")`
			`plt.legend()`
			`plt.grid(True)`
			`plt.tight_layout()`

			`# Show the plot`
			`plt.show()`


Initial commit: all py files and gitignore 2025-09-10 10:45:48 -04:00			`def plot_rsrq(filename):`
			`# Load the JSON file`
			`with open(filename, "r") as file:`
			`data = json.load(file)`

			`# Extract distance and RSRQ values (convert RSRQ values to integers)`
			`distances = []`
			`rsrq_prx = []`
			`rsrq_drx = []`
			`rsrq_rx2 = []`
			`rsrq_rx3 = []`

			`for entry in data:`
			`try:`
Minor plot improvements and fixes 2025-09-17 23:17:52 -04:00			`int(float(entry["distance"]))`
Initial commit: all py files and gitignore 2025-09-10 10:45:48 -04:00			`rsrq_prx.append(`
			`-20`
			`if int(entry["RSRQ PRX"].strip()) == -32768`
			`else int(entry.get("RSRQ PRX", -20))`
			`)`
			`rsrq_drx.append(`
			`-20`
			`if int(entry["RSRQ DRX"].strip()) == -32768`
			`else int(entry.get("RSRQ DRX", -20))`
			`)`
			`rsrq_rx2.append(`
			`-20`
			`if int(entry["RSRQ RX2"].strip()) == -32768`
			`else int(entry.get("RSRQ RX2", -20))`
			`)`
			`rsrq_rx3.append(`
			`-20`
			`if int(entry["RSRQ RX3"].strip()) == -32768`
			`else int(entry.get("RSRQ RX3", -20))`
			`)`
Minor plot improvements and fixes 2025-09-17 23:17:52 -04:00			`distances.append(int(float(entry["distance"])))`
Initial commit: all py files and gitignore 2025-09-10 10:45:48 -04:00			`except (ValueError, KeyError):`
			`continue`

			`# Plot the data`
			`plt.figure(figsize=(10, 6))`
			`plt.plot(distances, rsrq_prx, label="RSRQ PRX", marker="o")`
			`plt.plot(distances, rsrq_drx, label="RSRQ DRX", marker="s")`
			`plt.plot(distances, rsrq_rx2, label="RSRQ RX2", marker="^")`
			`plt.plot(distances, rsrq_rx3, label="RSRQ RX3", marker="d")`

			`plt.title("RSRQ vs Distance")`
			`plt.xlabel("Distance (m)")`
			`plt.ylabel("RSRQ (dBm)")`
			`plt.legend()`
			`plt.grid(True)`
			`plt.tight_layout()`

			`# Show the plot`
			`plt.show()`


Added median rsrp and rsrq functions, removed unused functions 2025-09-19 09:57:54 -04:00			`def plot_median_rsrq(filename):`
Initial commit: all py files and gitignore 2025-09-10 10:45:48 -04:00			`# Load the JSON file`
			`with open(filename, "r") as file:`
			`data = json.load(file)`

Added median rsrp and rsrq functions, removed unused functions 2025-09-19 09:57:54 -04:00			`# Extract distance and RSRQ values (convert RSRQ values to integers)`
Initial commit: all py files and gitignore 2025-09-10 10:45:48 -04:00			`distances = []`
Added median rsrp and rsrq functions, removed unused functions 2025-09-19 09:57:54 -04:00			`rsrqs = []`
Initial commit: all py files and gitignore 2025-09-10 10:45:48 -04:00
			`for entry in data:`
			`try:`
Added median rsrp and rsrq functions, removed unused functions 2025-09-19 09:57:54 -04:00			`antennas = []`
			`int(float(entry["distance"]))`
			`antennas.append(`
			`-20`
			`if int(entry["RSRQ PRX"].strip()) == -32768`
			`else int(entry.get("RSRQ PRX", -20))`
			`)`
			`antennas.append(`
			`-20`
			`if int(entry["RSRQ DRX"].strip()) == -32768`
			`else int(entry.get("RSRQ DRX", -20))`
			`)`
			`antennas.append(`
			`-20`
			`if int(entry["RSRQ RX2"].strip()) == -32768`
			`else int(entry.get("RSRQ RX2", -20))`
			`)`
			`antennas.append(`
			`-20`
			`if int(entry["RSRQ RX3"].strip()) == -32768`
			`else int(entry.get("RSRQ RX3", -20))`
			`)`
			`antennas.remove(max(antennas))`
			`antennas.remove(min(antennas))`
			`if min(antennas) == -169 and max(antennas) != -20:`
			`avg_rsrq = max(antennas)`
			`else:`
linting 2025-09-19 10:24:01 -04:00			`avg_rsrq = sum(antennas) / len(antennas)`
Added median rsrp and rsrq functions, removed unused functions 2025-09-19 09:57:54 -04:00			`rsrqs.append(avg_rsrq)`
			`distances.append(int(float(entry["distance"])))`
Initial commit: all py files and gitignore 2025-09-10 10:45:48 -04:00			`except (ValueError, KeyError):`
			`continue`

			`# Plot the data`
			`plt.figure(figsize=(10, 6))`
linting 2025-09-19 10:24:01 -04:00			`plt.plot(distances, rsrqs, label="RSRQ Avg RX", marker="o", color="blue")`
Initial commit: all py files and gitignore 2025-09-10 10:45:48 -04:00
Added median rsrp and rsrq functions, removed unused functions 2025-09-19 09:57:54 -04:00			`plt.title("RSRQ vs Distance")`
Initial commit: all py files and gitignore 2025-09-10 10:45:48 -04:00			`plt.xlabel("Distance (m)")`
Added median rsrp and rsrq functions, removed unused functions 2025-09-19 09:57:54 -04:00			`plt.ylabel("RSRQ (dBm)")`
Initial commit: all py files and gitignore 2025-09-10 10:45:48 -04:00			`plt.legend()`
			`plt.grid(True)`
			`plt.tight_layout()`

			`# Show the plot`
			`plt.show()`


			`def plot_double_iperf(filename):`
			`# Load the JSON file`
			`with open(filename, "r") as file:`
			`data = json.load(file)`

			`distances = []`
			`sender = []`
			`receiver = []`
			`reverse_distances = []`
			`reverse_sender = []`
			`reverse_receiver = []`

			`for entry in data:`
Added median rsrp and rsrq functions, removed unused functions 2025-09-19 09:57:54 -04:00			`if "iperf_full" in entry and entry["start_distance"] != "Unknown":`
Initial commit: all py files and gitignore 2025-09-10 10:45:48 -04:00			`if "Reverse mode" in entry["iperf_full"]:`
			`try:`
			`reverse_sender.append(float(entry["sender_bitrate"]))`
			`reverse_receiver.append(float(entry["receiver_bitrate"]))`
Added median rsrp and rsrq functions, removed unused functions 2025-09-19 09:57:54 -04:00			`reverse_distances.append(int(float(entry["start_distance"])))`
Initial commit: all py files and gitignore 2025-09-10 10:45:48 -04:00			`except:`
			`message = entry["iperf_full"]`
			`bitrates = re.findall(r"(\d+\.\d+) Mbits/sec", message)`

			`reverse_sender.append(float(bitrates[-2]))`
			`reverse_receiver.append(float(bitrates[-1]))`
Added median rsrp and rsrq functions, removed unused functions 2025-09-19 09:57:54 -04:00			`reverse_distances.append(int(float(entry["start_distance"])))`
Initial commit: all py files and gitignore 2025-09-10 10:45:48 -04:00			`else:`
			`try:`
			`sender.append(float(entry["sender_bitrate"]))`
			`receiver.append(float(entry["receiver_bitrate"]))`
Added median rsrp and rsrq functions, removed unused functions 2025-09-19 09:57:54 -04:00			`distances.append(int(float(entry["start_distance"])))`
Initial commit: all py files and gitignore 2025-09-10 10:45:48 -04:00			`except:`
			`message = entry["iperf_full"]`
			`bitrates = re.findall(r"(\d+\.\d+) Mbits/sec", message)`

			`sender.append(float(bitrates[-2]))`
			`receiver.append(float(bitrates[-1]))`
Added median rsrp and rsrq functions, removed unused functions 2025-09-19 09:57:54 -04:00			`distances.append(int(float(entry["start_distance"])))`
Initial commit: all py files and gitignore 2025-09-10 10:45:48 -04:00
			`# Plot the data`
			`plt.figure(figsize=(10, 6))`
Added median rsrp and rsrq functions, removed unused functions 2025-09-19 09:57:54 -04:00			`plt.plot(`
			`distances, sender, label="Avg Uplink Sender Bitrate", marker="o", color="red"`
			`)`
Initial commit: all py files and gitignore 2025-09-10 10:45:48 -04:00			`plt.plot(`
			`distances,`
			`receiver,`
Minor plot improvements and fixes 2025-09-17 23:17:52 -04:00			`label="Avg Uplink Receiver Bitrate",`
Initial commit: all py files and gitignore 2025-09-10 10:45:48 -04:00			`marker="s",`
			`color="darkorange",`
			`)`
			`plt.plot(`
			`reverse_distances,`
			`reverse_sender,`
Minor plot improvements and fixes 2025-09-17 23:17:52 -04:00			`label="Avg Downlink Sender Bitrate",`
Initial commit: all py files and gitignore 2025-09-10 10:45:48 -04:00			`marker="^",`
			`color="blue",`
			`)`
			`plt.plot(`
			`reverse_distances,`
			`reverse_receiver,`
Minor plot improvements and fixes 2025-09-17 23:17:52 -04:00			`label="Avg Downlink Receiver Bitrate",`
Initial commit: all py files and gitignore 2025-09-10 10:45:48 -04:00			`marker="d",`
			`color="blueviolet",`
			`)`

			`plt.title("IPERF vs Distance")`
			`plt.xlabel("Distance (m)")`
			`plt.ylabel("Bitrate (Mbits/s)")`
			`plt.legend()`
			`plt.grid(True)`
			`plt.tight_layout()`

			`# Show the plot`
			`plt.show()`


			`if __name__ == "__main__":`
Added median rsrp and rsrq functions, removed unused functions 2025-09-19 09:57:54 -04:00			`filename = "/home/madrigal/repos/range-testing/data/boat_relay_sept_18/test_1758215714_copy.json"`

			`# plot_double_iperf(filename=filename)`
			`# plot_rsrp(filename=filename)`
			`# plot_rsrq(filename=filename)`
			`plot_median_rsrp(filename=filename)`
			`plot_median_rsrq(filename=filename)`

			`filename = "/home/madrigal/repos/range-testing/data/boat_relay_sept_18/test_1758217711_copy.json"`

			`# plot_double_iperf(filename=filename)`
			`# plot_rsrp(filename=filename)`
			`# plot_rsrq(filename=filename)`
			`plot_median_rsrp(filename=filename)`
			`plot_median_rsrq(filename=filename)`

			`filename = "/home/madrigal/repos/range-testing/data/boat_relay_sept_18/test_1758219350_copy.json"`
Initial commit: all py files and gitignore 2025-09-10 10:45:48 -04:00
Minor plot improvements and fixes 2025-09-17 23:17:52 -04:00			`# plot_double_iperf(filename=filename)`
Added median rsrp and rsrq functions, removed unused functions 2025-09-19 09:57:54 -04:00			`# plot_rsrp(filename=filename)`
			`# plot_rsrq(filename=filename)`
			`plot_median_rsrp(filename=filename)`
			`plot_median_rsrq(filename=filename)`