Automatic Cell Planning Module Atoll 3.1.2
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Slide 1
Training Programme
1.
Introduction
2.
Parameters Used by ACP
3.
Network Reconfiguration Process
4.
Site Selection Process
5.
Other Topics
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Slide 2
1. Introduction
Automatic optimisation tool for GSM, UMTS, CDMA, LTE and WIMAX networks To improve existing networks by tuning parameters that can be easily changed remotely • Antenna electrical tilt • Power (BCCH for GSM, Pilot for UMTS, Reference Signal for LTE, Preamble for WiMAX)
To optimise a network still in the planning phase by: • Selecting antennas • Changing the antenna azimuth • Changing the mechanical downtilt of the antenna • Changing the antenna height
• Selecting sites among a list of candidate sites
Combined GSM/UMTS/LTE optimisation can be performed
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Slide 3
1. Introduction
Principle Optimisation of quality indicators
GSM
UMTS/CDMA
• BCCH coverage • Dominance of Best Server
• RSCP (Pilot) coverage • CPICH Ec/Io
LTE
WIMAX
• Reference Signal coverage • Reference Signal CINR
• Preamble coverage • Preamble CINR
By automatic adjustments of network parameters • Power (BCCH for GSM, Pilot for UMTS/CDMA, RS for LTE and Preamble for WiMAX) • Antenna parameters: • Type of antenna • Azimuth • Mechanical downtilt • Electrical downtilt • Height
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Slide 4
1. Introduction
Principle Optimisation process based on a cost function The cost function depends on quality figures • In GSM: the cost decreases when the BCCH coverage and the Best Server’s dominance increase • In UMTS/CDMA: the cost decreases when the Pilot coverage and Pilot quality increase • In LTE: the cost decreases when the RS coverage and RS CINR increase
• In WIMAX: the cost decreases when the Preamble coverage and Preamble CINR increase
Iterative algorithm is used • Each iteration corresponds to one network parameter change • Then, changes are ranked from the change with the most benefit to the change with the least benefit
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Slide 5
Training Programme
1.
Introduction
2.
Parameters Used by ACP
3.
Network Reconfiguration Process
4.
Site Selection Process
5.
Other Topics
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Slide 6
2. Parameters used by ACP
Focus zone
Requirements Existing and valid path loss matrices
= Area where the optimisation will be performed (by default)
Recommendations Creating a Computation Zone • Used to define the default area where the ACP calculates statistics on performance indicators
Creating a Focus Zone • Used to define the default area in which are the cells to be optimised
Computation zone = Zone used to compute statistics on performance indicators (by default)
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Slide 7
Training Programme
1.
Introduction
2.
Parameters Used by ACP
3.
Network Reconfiguration Process
4.
Site Selection Process
5.
Other Topics
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Confidential – Do not share without prior permission
Slide 8
3. Network Reconfiguration Process
Creating an Optimisation Setup Defining Optimisation Parameters and Objectives Running an Optimisation Process Viewing Optimisation Results Analysing Optimisation Results
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Slide 9
Creating an Optimisation Setup
To run the optimisation immediately
To save the defined optimisation parameters and run the optimisation later
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Slide 10
Defining Optimisation Parameters (1/9)
Selection of layers to be optimised
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Layer(s) configuration Several in case of Multi-RAT networks (GSM+UMTS+LTE)
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Slide 11
Defining Optimisation Parameters (2/9)
Selection of zones to be optimised Zones definition Possibility to define zones to be specifically optimized, using: • Clutter Classes, • Hot Spots zones, • .shp files
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Slide 12
Defining Optimisation Parameters (3/9)
Choice between quality or financial cost based optimisation No cost control: the optimisation is only based on quality Useful when planning a new network
Possibility to limit the financial cost of the optimisation: • Maximum financial cost allowed • Compromise between the financial cost and the quality Useful when improving an existing network Definition of the financial cost for: • Each parameter change • Each site visit • etc...
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Slide 13
Defining Optimisation Parameters (4/9)
Selection of transmitters/cells to be optimised
To define Cells’ Optimisation parameters (Subcells power in GSM, Pilot power in UMTS, RS power in LTE and Preamble power in WiMAX)
Definition of parameters that can be modified by ACP
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Slide 14
Defining Optimisation Parameters (5/9)
By default, GSM-UMTS-LTE transmitters sharing the same antenna parameters are linked An auto-Link function based on site coordinates, antenna height, azimuth and mechanical tilt is provided
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Slide 15
Defining Optimisation Parameters (6/9)
Definition of Antenna Groups To give some directives when reconfiguring the antenna type or the electrical tilt
Multi band “Physical Antenna” Dual 900 1800 – 65deg17dBi
Antenna Element 65deg17dBi@900
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Multi band “Physical Antenna” Dual 900 1800 – 36deg20dBi
Antenna Element 65deg17dBi@1800
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Slide 16
Defining Optimisation Parameters (7/9)
Step 1 : Create “Antenna Element” (using radiating patterns)
• An “Antenna Element” is defined by one gain, one beamwidth and one frequency band • For a given frequency band, a given beamwidth and a given gain, the “Antenna element” is a group of antenna patterns obtained with different electrical tilt values
Antenna patterns table
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Slide 17
Defining Optimisation Parameters (8/9)
Step 2 : Create “Physical Antennas” (using Antenna Elements) To define multiband antennas
Multi band “Physical Antenna”
Antenna Elements
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Slide 18
Defining Optimisation Parameters (9/9)
Step 3 : Create “Antenna Groups” (using Physical Antennas) To define groups of Physical Antennas that will be then assigned to transmitters in the reconfiguration tab
Antenna groups to be assigned to TXs in the Reconfiguration tab Created Physical Antennas
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Slide 19
Defining Objectives (1/11)
ACP allows you to define Quality and Coverage objectives for each technology Objectives are assessed over a “Target Zone” (Computation Zone, by default)
Objectives defined by the user
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Indicators to be optimized
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Slide 20
Defining Objectives (2/11)
Objective & Zone weighting Objectives and Zones can be weighted according to their relative importance
Give a priority to each objective Give priorities to specific Zones * (* Priorities only apply if the “Zone Weighting” option is checked)
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Slide 21
Defining Objectives (3/11) Default option: NONE the traffic is assumed to be uniform
Traffic weighting (per objective) ACP is able to focus more specifically on areas with a high traffic
The quality indicator measured on each pixel has the same weight
Selection of traffic maps (non-uniform traffic) to weight map pixels The quality indicators measured on each pixel can be weighted by using the traffic density on that pixel
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Slide 22
Defining Objectives (4/11)
Example: Defining UMTS objectives Coverage objectives : UMTS RSCP Coverage
Coverage to be respected while meeting the RSCP coverage conditions
Define the Minimum Pilot Signal Level to get on each pixel of the “Target Zone”
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Slide 23
Defining Objectives (5/11)
Example: Defining UMTS objectives Quality objectives : UMTS EcIo
Coverage to be respected while meeting the Pilot Quality conditions
Define the Minimum Pilot Quality to get on each pixel of the “Target Zone”
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Slide 24
Defining Objectives (6/11)
Example: Defining UMTS objectives UMTS Objectives Parameters
For each indicator to optimize, ACP settings (display configuration, shadowing margin…) can be: •
Either, taken from an existing prediction
•
Or, defined manually
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Slide 25
Defining Objectives (7/11)
Summary of the indicators that can be optimized for each technology
GSM
UMTS/CDMA
• BCCH coverage
• RSCP (Pilot) coverage
• Dominance of Best Server
• CPICH Ec/Io
(= Number of potential servers must be < 4)
• Pilot Pollution (= Number of cells in the Active Set > 3)
LTE
WIMAX
• Reference Signal coverage (or RSRP)
• Preamble coverage • Preamble CINR
• Reference Signal CINR (or RS C/N, RSRQ)
• Overlap
• Overlap (= Number of potential servers must be < 4)
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Slide 26
Defining Objectives (8/11)
Load balancing (Optional) ACP enables you to create and manage capacity planning objectives • To prevent load imbalance between sectors and thus avoid the degradation of some KPIs
Example: Optimisation of a UMTS network by ACP without Load Balancing
• Traffic served
Cell A: Up-tilt (2°) Cell B: Down-tilt (1°)
Cell B
(Statistics on Cell A)
• Cell load
Cell B
- DL Total Power Cell A
Cell A
- UL Noise Rise • Interference
Cell Load A = 75% ; Cell Load B = 60%
Cell Load A = 98% ; Cell Load B = 45%
• Risk of congestion
Solution: Load Balancing ! The Load balancing feature relies on 2 performance indicators: • The “Average Load” improvement (%), measures how the average load improves from the initial value • The “Load Balance” (%), measures the dispersion of cells loads
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Slide 27
Defining Objectives (9/11)
Load balancing (Optional) Can be activated in the “Objectives” tab under “Load Balancing”
Recommendation: Keep the default configuration Allows you to select the layers for which load balancing is performed
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Slide 28
Defining Objectives (10/11)
Load balancing (Optional) Traffic related to capacity planning can be defined in the “Capacity” tab Traffic can be considered as uniform (evenly spread on each service area) or, generated from traffic maps
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Slide 29
Defining Objectives (11/11)
Load balancing (Optional) ACP is designed to perform load balancing across multiple layers and technologies
For each service used, traffic is balanced across all the available layers and technologies For each service and each technology, define the minimum quality required by a cell to provide the service To increase traffic density specifically on some zones. Traffic is scaled according to the weights defined in the “Zone Weighting” tab.
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Slide 30
Running an Optimisation Process (1/4)
Graphical display of the optimisation progress “Graphs” tab: Variation of performance objectives in real time with iterations
The optimisation process can be paused or stopped early
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Slide 31
Running an Optimisation Process (2/4)
Graphical display of the optimisation progress “Changes” tab: Type and number of changes
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Slide 32
Running an Optimisation Process (3/4)
Graphical display of the optimisation progress “Quality” tab: Coverage and Quality improvements (variations)
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Slide 33
Running an Optimisation Process (4/4)
Graphical display of the optimisation progress “Objectives” tab: To see at a glance if the objective is achieved or not
Select the objective to be analysed (coverage and quality indicators)
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Slide 34
Viewing Optimisation Results (1/5)
Optimisation results are stored in the optimisation folder Results available in 7 tabs
Global report available in “Excel” format
“Statistics” tab: synthesised view of optimisation results for each objective Statistics provided for the “Target zone” • To get statistics on the other zones select “Show Detailed Zone Results”
Statistics for each objective © Forsk 2012
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Slide 35
Viewing Optimisation Results (2/5)
“Graph” and “Quality” tabs
Histogram displaying statistics within the computation zone or the focus zone Coverage and Quality maps before and after the optimisation © Forsk 2012
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Slide 36
Viewing Optimisation Results (3/5)
“Capacity” tab Provides capacity load statistics for the initial and the optimised network
The graph shows the ratio of cells with a capacity load that is smaller than a given capacity load value (%). Usually, the best result that you can get is a final curve (blue curve) on top of the initial curve (red curve).
Statistics based on the values displayed in the table (on the right)
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Slide 37
Viewing Optimisation Results (4/5)
“Change Details” tab Analysis of improvements according to the number of changes Changes are ordered by “profitability” • The most “profitable” changes will be applied first
Slider to select a subset of all changes and view the corresponding performance improvement on the graph (global improvement and improvement of each objective)
List of changes ranked from the change with the most effect to the change with the least effect Selected changes are displayed in green
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Slide 38
Viewing Optimisation Results (5/5)
“Commit” tab To commit changes that you allowed in the “Change Details” tab
Transmitters/cells with parameter changes are displayed in green
Initial and final cell parameters displayed
Revert the network to its state before the optimisation was run Apply the set of selected changes
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Slide 39
Analysing Optimisation Results (1/5)
Process Quick validation of optimisation results using the ACP maps • First analysis available without having to commit ACP results • Based on the entire set of proposed changes
Deeper analysis with coverage predictions available in the predictions folder • After committing ACP results
ACP Maps Available Quality analysis maps • Display of Coverage and Quality maps
Coverage analysis • Status of the coverage according to the defined objectives used in the optimisation
Change analysis • Analysis of changes: antenna, tilt, azimuth
Best server analysis • Absolute values of changed parameters © Forsk 2012
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Slide 40
Analysing Optimisation Results (2/5)
Analysis with ACP Maps
ACP maps are automatically calculated and inserted into the folder containing the optimisation results
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Slide 41
Analysing Optimisation Results (3/5)
Analysis with ACP Maps Tiptext available for any ACP map • The exact calculated value is displayed on each pixel
Display properties of ACP maps • Automatic update of the ACP map after changing colours or range of values
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Slide 42
Analysing Optimisation Results (4/5)
Analysis with ACP Maps Histogram available on ACP maps
Comparison tool • Available to compare ACP maps from the same optimisation or from a different optimisation
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Slide 43
Analysing Optimisation Results (5/5)
Analysis with coverage predictions from the predictions folder Requirement: Commit results of the optimisation
Calculating prediction studies before and after the optimisation
Generating reports on the predictions studies before and after the optimisation in order to check if network quality figures have been improved
Possibility to “Roll back to Initial State”
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Slide 44
Training Programme
1.
Introduction
2.
Parameters Used by ACP
3.
Network Reconfiguration Process
4.
Site Selection Process
5.
Other Topics
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Confidential – Do not share without prior permission
Slide 45
4. Site Selection Process
Overview Defining Candidate Sites Viewing Optimisation Results
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Slide 46
Overview (1/2)
Examples of Site Selection process Scenario 1: using ACP to select the best site among several candidates on a given geographical area • 3 candidate sites available • Candidate sites are assigned to a group where the minimum and the maximum site occurrence is set to “1” Among the 3 candidates, the ACP is forced to select only one site
Scenario 2: using ACP to deploy the LTE technology on a given area using existing UMTS sites • About 40 UMTS sites (i.e. 40 candidate sites) available on the target area • Candidate sites are assigned to a group where the minimum site occurrence is set to “10” and the maximum to “20” Among the 40 candidates, the ACP is forced to select between 10 and 20 sites to reach objectives
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Slide 47
Overview (2/2)
General process similar to the site reconfiguration process: Creating an optimisation setup Defining “Candidate” sites
Defining objectives and parameters to be optimised • Note: The “Reconfiguration” mode is available (not mandatory) during the Site Selection process.
Running an optimisation process Viewing optimisation results Analysing optimisation results
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Slide 48
Defining Candidate Sites (1/3)
By using pre-defined sites Prerequisite: Stations to be processed by ACP must be defined in the Atoll document with a given status Two status for sites: • “Existing”: The site is an active site in the current network. ACP can remove the whole site or one or more sectors of the site to improve the network quality
• “Candidate”: The site is not on-air in the initial network (i.e. all TXs are deactivated). ACP can add the site or only one or more sectors of the site to improve the network quality Check “Current Site Selection” to allow changes (site / sector removal) among “existing” sites Check “Current Site Selection” to display deactivated sites. Then, define groups of sites with a min. and a max. number of sites to be added during the optimisation (“Group” column)
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Slide 49
Defining Candidate Sites (2/3)
By using pre-defined sites
“Reconfiguration” column: Select “Disable” to prevent ACP from making any changes to the Transmitters or to the Cells, as defined in the Transmitters and the [Technology] Cells tabs In case of network reconfiguration, you can preserve the current angular separation between antennas, and the relative height difference between them
“Advanced” tab: Allows you to apply the same locking options to a set of sites, and to manage groups
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Slide 50
Defining Candidate Sites (3/3)
By importing a list of candidate sites
Option 1: import a text file (*.txt) containing at least candidates’ name and coordinates Option 2: import a list of candidate sites from the Atoll project To allocate a station template to each candidate site © Forsk 2012
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Slide 51
Viewing Site Selection Results (1/3)
Statistics Report
Statistics and status of the optimisation (Achieved or Failed) for each objective
Select “Show Change Statistics” to get statistics on the sites/sectors added or removed, and all the changes made during the optimisation process
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Slide 52
Viewing Site Selection Results (2/3)
Implementation Plan Analysis
Sites/TXs/Cells added or removed List of changes (antennas, tilts, etc.) if “Reconfiguration” mode selected
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Slide 53
Viewing Site Selection Results (3/3)
Transmitters/Cells Modifications Analysis
List of candidate TXs/cells to be added
List of TXs/cells to be removed List of changes (antennas, tilts, etc.), if “Reconfiguration” mode selected
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Slide 54
Training Programme
1.
Introduction
2.
Parameters Used by ACP
3.
Network Reconfiguration Process
4.
Site Selection Process
5.
Other Topics
© Forsk 2012
Confidential – Do not share without prior permission
Slide 55
6. Other Topics
Combined GSM/UMTS/LTE Optimisation (in case of several .atl documents) Data Loading and Validity Control Saving Settings to Configuration Files Configuring Default Settings
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Slide 56
Combined GSM/UMTS/LTE Optimisation (1/2)
Requirements (in case of several .atl documents) Several Atoll projects (GSM, UMTS and/or LTE .atl files) that must be opened in the same Atoll session
General process similar to a classic optimisation Creating the optimisation setup Defining optimisation parameters Running the optimisation process Viewing optimisation results Analysing optimisation results
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Slide 57
Combined GSM/UMTS/LTE Optimisation (2/2)
Procedure (in case of several .atl documents) Step 1: Create the optimisation setup in one single technology document (a LTE document for ex.) Step 2: Import other(s) network(s)’ configuration by importing associated project(s)
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Slide 58
Data Loading and Validity Control (1/2)
Data used when running an optimisation process
Loaded when creating an optimisation setup Radio data (antennas, sites, transmitters) Traffic parameters (services, terminals, etc.)
Direct access when running the optimisation process
Geographic maps (DTM, clutter class and clutter height maps)
Traffic maps Path loss matrices
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Slide 59
Data Loading and Validity Control (2/2)
Data validity control when running an optimisation process Atoll checks the consistency between the optimisation setup, the actual state of the network and path loss matrices If inconsistencies => existing optimisation setups are locked and new optimisation process cannot be run
Incoherence with existing setup when: Data changes are performed after creating the setup (e.g. New transmitter, transmitter deactivated, different transmitter settings, etc.) Optimisation results have been committed Path loss matrices are missing or not valid
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Slide 60
Saving Settings to Configuration Files
Save or load a given Setup Configuration
Import the configuration file containing optimisation settings Used to apply the same settings when you create a new optimisation setup
Optimisation settings saved in a .PRJ file (objectives per clutter class, lists of cells to be reconfigured, reconfiguration settings, etc.)
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Slide 61
Configuring User Preferences
Trade-off between speed and quality Enables you to activate the “Multi-Storey” and the “EMF Exposure” extensions
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Slide 62
Setup Template Configuration
Define default values of the Optimisation Setup
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Slide 63
Configuring Path Loss Matrices Storage
Define the folder to be used by ACP to store Path Loss Matrices (used in case of Antenna Height optimisation)
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Slide 64
Thank you
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Slide 65