diff --git a/plot_single_transmission_EM9190.py b/plot_single_transmission_EM9190.py
index d58ebb8..b9d8253 100755
--- a/plot_single_transmission_EM9190.py
+++ b/plot_single_transmission_EM9190.py
@@ -131,24 +131,36 @@ if __name__ == "__main__":
         ax00 = ax[1]
         ax01 = ax00.twinx()
         ax02 = ax00.twinx()
+        ax02.spines.right.set_position(("axes", 1.22))
 
         # Plot vertical lines
+        first = True
         lte_handovers = transmission_df["Cell_ID"].diff().dropna()
         for index, value in lte_handovers.items():
             if value > 0:
-                ax00.axvline(index, ymin=0, ymax=1, color="skyblue", label="4G Handover")
+                if first:
+                    ax00.axvline(index, ymin=0, ymax=1, color="skyblue", label="4G Handover")
+                    first = False
+                else:
+                    ax00.axvline(index, ymin=0, ymax=1, color="skyblue")
 
+        first = True
         nr_handovers = transmission_df["NR5G_Cell_ID"].diff().dropna()
         for index, value in nr_handovers.items():
             if value > 0:
-                ax00.axvline(index, ymin=0, ymax=1, color="greenyellow", label="5G Handover")
+                if first:
+                    ax00.axvline(index, ymin=0, ymax=1, color="greenyellow", label="5G Handover")
+                    first = False
+                else:
+                    ax00.axvline(index, ymin=0, ymax=1, color="greenyellow")
+
 
         ax0.plot(transmission_df["snd_cwnd"].dropna(), color="lime", linestyle="dashed", label="cwnd")
         ax1.plot(transmission_df["srtt"].dropna(), color="red", linestyle="dashdot", label="sRTT")
         ax2.plot(transmission_df["goodput_rolling"], color="blue", linestyle="solid", label="goodput")
         ax00.plot(transmission_df["NR5G_RSRQ_(dB)"].dropna(), color="magenta", linestyle="dotted", label="NR RSRQ")
         ax01.plot(transmission_df["bw_sum"].dropna(), color="peru", linestyle="dotted", label="bandwidth")
-        ax02.plot(transmission_df["RSRQ_(dB)"].dropna(), color="magenta", linestyle="dotted", label="LTE RSRQ")
+        ax02.plot(transmission_df["RSRQ_(dB)"].dropna(), color="purple", linestyle="dotted", label="LTE RSRQ")
 
         ax2.spines.right.set_position(("axes", 1.1))
 
@@ -156,7 +168,7 @@ if __name__ == "__main__":
         ax1.set_ylim(0, 0.3)
         ax2.set_ylim(0, 500)
         ax00.set_ylim(-25, -5)
-        ax01.set_ylim(0, 200)
+        ax01.set_ylim(0, 400)
         ax02.set_ylim(-25, -5)
 
         ax00.set_xlabel("arrival time [s]")