question stringlengths 3.24k 4.13k | choices listlengths 8 8 | answer int64 0 7 |
|---|---|---|
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 5 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 4 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 1 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 2 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 7 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 2 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 6 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 6 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 5 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 0 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 2 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 1 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 7 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 1 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 0 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 0 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 7 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 6 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 2 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 6 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 6 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 7 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 2 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 3 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 4 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 0 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 7 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 3 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 1 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 0 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 4 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 1 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 3 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 2 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 7 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 1 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 5 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 0 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 4 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 0 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 0 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 3 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 2 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 1 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 3 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 4 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 5 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 4 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 2 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 5 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 4 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 6 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 4 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 5 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 1 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 5 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 4 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 5 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 3 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 0 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 1 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 0 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 0 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 0 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 5 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 6 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 2 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 1 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 2 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 5 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 3 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 4 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 7 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 2 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 3 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 7 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 3 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 3 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 0 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 5 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 6 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 5 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 0 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 0 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 6 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 1 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 1 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 0 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 0 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 7 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 1 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 3 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 0 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 5 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 6 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 1 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 1 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 5 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 4 |
Given:
- The default electronic downtilt value is 255, representing a downtilt angle of 6 degrees. Other values represent the actual downtilt angle in degrees.
Beam Scenario and Vertical Beamwidth Relationships:
- When the cell's Beam Scenario is set to Default or SCENARIO_1 to SCENARIO_5, the vertical beamwidth is 6 ... | [
"The serving cell's downtilt angle is too large, causing weak coverage at the far end.",
"The serving cell's coverage distance exceeds 1km, resulting in over-shooting.",
"A neighboring cell provides higher throughput.",
"Non-colocated co-frequency neighboring cells cause severe overlapping coverage.",
"Freq... | 7 |
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