PCI MOD3,6,30 ANALYSIS AND AUTO
OPTIMIZATIONGEOGRAPHY STATISTICS
HOW TO FIND MOD3,6,30 COLLISION The algorithm can find the MOD(3),MOD(6) and MOD(30) collision for each cell which has cross coverage area with another cell, and this algorithm will implement traversing in every single cell one by one for whole network.
Find MOD(3),MOD(6) and MOD(30) collision cells by particulat algorithm based customer confirmed RSRP
1
Output analysis report and optimization solution
2
Generate Optimization Report
3
INPUT DATASITE INFO:1. Longitude, Latitude2. Antenna Height3. Antenna Down tilt4. Site Output Power Parameter for Radio Link Loss Formula
1. F: Frequency2. Hb: Antenna Height3. CH: Environment factor
Interference Level
OPTIMIZATION PROCEDURESite Info
Logitude, Latitude
Height, Down Tilt
Tx_Power
Parameter for Radio Link Loss
f: Frequency
Hb : Site Height
CH : Environment
Radio Link LossLu=69.55+26.16*log(f)-13.82*log(Hb)-CH+[44.9-6.55*log(Hb)]*log(d)
Input RSRP Level:Such as -85dBm
Output Cell Coverage Radius
Mod(3)Cross Coverage Area
A
B
OUTPUT DATA1. Cell MOD(3),MOD(6) and MOD(30) analysis report;2. MOD(3),MOD(6) and MOD(30) thematic map;3. Candidate PCI Value List;4. Optimization Report
The following slides will show you more information regarding these topics.
GENERATE PCI ANALYSIS REPORT
CELL NAME PCI MOD(3) MOD(6) MOD(30) Cell Name Cross Coverage Area PCI Distance(M) MOD(3) MOD(6) MOD(30) MOD(3) MOD(6) MOD(30)City_Center_1 122 2 2 2 ShopingMall_1 50 3 520 0 3 3 N N NCity_Center_1 122 2 2 2 Pharmacy_2 33 78 480 0 0 18 N N NCity_Center_1 122 2 2 2 School_2 35 89 610 2 5 29 Y N NCity_Center_2 123 0 3 3 Hotel_3 76 264 480 0 0 24 Y N NCity_Center_2 123 0 3 3 Kindergarten_
2 34 67 560 1 1 7 N N NCity_Center_2 123 0 3 3 Hospital_2 23 100 550 1 4 10 N N NCity_Center_2 123 0 3 3 Park_1 44 111 780 0 3 21 Y Y NCity_Center_3 124 1 4 4 Police_2 53 222 660 0 0 12 N N NCity_Center_3 124 1 4 4 Caffee_1 21 333 770 0 3 3 N N NCity_Center_3 124 1 4 4 Palace_3 18 454 670 1 4 4 Y Y Y
This report will show you a clear picture regarding the MOD(3), MOD(6) and MOD(30) collision base on the RSRP which user definition.
GENERATE PCI MOD THEMATIC MAP
DELIVERY OPT REPORTNumber of Collision cells
Before optimization
After optimization
MOD(3) 100 0MOD(6) 80 10MID(30) 60 5
Sum Collision Area
Before Optimization
After Optimization
MOD(3) 16789 560
MOD(6) 80 10
MID(30) 60 5
Netwrork 优化前 优化后 提高Access Success Rate 98% 99% 1.02%Downlink Throughput(kbps) 1432 1456 1.68%
MOD-0 MOD-1 MOD-20
50
100
150
200
250
0.00%5.00%10.00%15.00%20.00%25.00%30.00%35.00%40.00%45.00%50.00%
FREQUENCY 38400 PCI MOD(3)
Num_Cell Percent
MOD-0 MOD-1 MOD-2 MOD-3 MOD-4 MOD-50
20
40
60
80
100
120
0.00%
5.00%
10.00%
15.00%
20.00%
25.00%
FREQUENCY 38400 PCI MOD(6)
Num_Cell Percent
MOD-0
MOD-2
MOD-4
MOD-6
MOD-8
MOD-10
MOD-12
MOD-14
MOD-16
MOD-18
MOD-20
MOD-22
MOD-24
MOD-26
MOD-28
0
5
10
15
20
25
0.00%0.50%1.00%1.50%2.00%2.50%3.00%3.50%4.00%4.50%5.00%
FREQUENCY 38400 PCI MOD(30)
Num_Cell Percent
ADVANCED FEATURE (1) 1. Single Cell PCI Tuning Base on the output report, you will get the mod(3),mod(6) and mod(30) collision cells list, and then system will provide you a candidate value list support you to find the prober PCI.
The following table is an example which system will show you after big data analysis.PCI MOD(3) MOD(6) MOD(30) Cross Area Cell Distance
128 2 2 8 0 Without Collision Cell
179 2 5 29 8 1.3KM234 0 0 24 12 0.9KM156 0 0 6 14 0.8KM
ADVANCED FEATURE (2) . Whole network PCI smart distribution Once the RSRP confirmed, the system can fill the following table, and then implement the algorithm to distribute PCI with different mod(3),mod(6) and mod(30) values for the cells which get cross area from maximum to minimum.
Finally, we will make the network with minimum cross coverage area with mod(3),mod(6) and mod(30) collision. And also base on the big data analysis, we will put solution as well, to adjust some particular cell’s antenna down tilt to make the mod collision as small as possible.
CELL NAME PCI MOD(3) MOD(6) MOD(30) Cell Name Cross Coverage Area PCI Distance(M) MOD(3) MOD(6) MOD(30) MOD(3) MOD(6) MOD(30)City_Center_1 122 2 2 2 ShopingMall_1 50 3 520 0 3 3 N N NCity_Center_1 122 2 2 2 Pharmacy_2 33 78 480 0 0 18 N N NCity_Center_1 122 2 2 2 School_2 35 89 610 2 5 29 Y N NCity_Center_2 123 0 3 3 Hotel_3 76 264 480 0 0 24 Y N NCity_Center_2 123 0 3 3 Kindergarten_
2 34 67 560 1 1 7 N N NCity_Center_2 123 0 3 3 Hospital_2 23 100 550 1 4 10 N N NCity_Center_2 123 0 3 3 Park_1 44 111 780 0 3 21 Y Y NCity_Center_3 124 1 4 4 Police_2 53 222 660 0 0 12 N N NCity_Center_3 124 1 4 4 Caffee_1 21 333 770 0 3 3 N N NCity_Center_3 124 1 4 4 Palace_3 18 454 670 1 4 4 Y Y Y
end