TETRA NETWORK PLANNING WITH ICS designer

7th of October, 2015Warsaw, POLAND

Mr Rubén PerdizATDI Engineerrperdiz@atdi.com

Agenda1. ATDI in a few words2. TETRA overview3. TETRA Network planning

i. Input:i. GIS interfaceii. Propagation Modelsiii. Target of the deploymentiv. Existing sites / Method to add new sites / Select sites

ii. Output:i. Coverage calculationii. Network optimization and traffic analysisiii. Frequency assignment and Interference calculationiv. Share network data (ICS online, Google Earth, HTZ spectrum, GIS)

4. ATDI Product range

ATDI in a few wordsATDI is a French company with more than 25 years of experience in the industry

Provides software and services in radio communication• Radio network planning & optimization (civil & military)• Spectrum management• Digital cartography

Composed of engineers with high level of expertise

A significant number of clients : around 2,000 references

Close to the customer with 11 local ATDI offices and a network of local distributors

ATDI worldwide presence

ATDI Iberica(Madrid)

ATDI Pty Ltd(Sydney)

ATDI Inc.(Washington D.C.)

ATDI Ltd.(London)

ATDI S.A.Headquarters

(Paris)ATDI Eurasia

(Moscow)

ATDI India(Mumbai)

ATDI(Singapore)

ATDI Poland(Warsaw)

ATDI Israel(Maccabim)

ATDI-LIS LLC(Kiev)

Solutions in radio communications

Main markets

– Telecom operators / Broadcasters

– Regulators

– Military forces / Emergency services

– Telecom Equipment Manufacturing

– Engineering Services consulting firms

www.atdi.com/references/

• Planning a TETRA networks differs considerably, for a varietyof reasons (critical communications, reliability) from cellularplanning processes.

• TETRA cells are generally much larger than cellular cells andusers requirements (voice and data) are widely different andimpact the way the TETRA network must be dimensioned.

• The validation of the coverage and the network performancewill determinate the optimization process/actions required.An accurate network design is essential to minimize the needof reconfiguration of deployed site, deployment of additionalsites, change to equipment and to the network as a whole.

TETRA overview

TETRA overviewPlanning a TETRA Network

1. Project settings 1.1. Cartographic dataset used 1.2. Selection of propagation model 1.3. Simulation parameters settings (Link budget, Balanced threshold DL/UL, planning margin 95%, calculation distan 1.4. Coverage and traffic objectives (area to cover - Polygon, roads, railways, …)

2. Coverage planning 2.1. Import, parameter and selection of the best existing sites 2.2. Add new sites to achieve the coverage objectives (ICS designer planning functions)

3. Handover planning 3.1. Define the neighbor list of each station 3.2. Check HO areas 3.3. Add sites in areas where HO is not achieved

4. Traffic planning 4.1. Set the traffic requirements (according to clutter, subscribers, polygons) 4.2. Define the number of channels and slots required per site

5. Frequency plan optimization 5.1. Automatic frequency assignment 5.2. Optimize the spectrum used 5.3. Check interference

6. Site parameter optimizing 6.1. Optimize Tilt/Azimuth/Power in order to reduce interference levels

7. Network performance analysis 7.1. Coverage reports 7.2. HO reports and maps 7.3. Traffic maps, etc…

• Digital maps can consist from different layers with different functionality.

• Map accuracy will make influence on the result of network design and on the scope of planning engineer capabilities.

• Radio-wave propagation models will also depend from digital maps scale and consistence.

1. Project settings1. 1. Cartographic dataset usedTETRA planning

Radiowave propagation model is the mathematical instrument that connects radiotechnology and equipment parameters with any result that can be received on the digital maps.

More than 50 very accurate deterministic and empirical propagation models (including ITU models and Okumura Hata/COST231)

TETRA planning1. Project settings1. 1. Cartographic dataset used1.2. Selection of propagation model

Route planning functions

• Define technical parameters of the TETRA stations Type of antennas; Number of sectors; Powers; Thresholds; Path budgets (up/down)

• Link budget, Balanced threshold UL/DL, planning margin 95%, calculation distance

1. Project settings1. 1. Cartographic dataset used1.2. Selection of propagation model1.3. Simulation parameters settings

TETRA planning

Route planning functions

• Coverage and traffic objectives Add new sites Area to cover (polygon, road, rails)

ICS designer

Planning functions

TETRA planning1. Project settings1. 1. Cartographic dataset used1.2. Selection of propagation model1.3. Simulation parameters settings 1.4. Coverage and traffic objectives

Route planning functions

• Import, parameters

and selection of the

best existing sites

TETRA planning 2. Coverage planning2.1. Import, parameter and

selection of the best existing sites

Route planning functions

Subscribers creation

Prospective planning

Parenting functions

TETRA planning 2. Coverage planning2.1. Import, parameter and selection

of the best existing sites2.2. Add new sites to achieve

the coverage objectives

Route planning functions

Surface planning androute planning functions

Examples of Route planning:• Secured Logistics Convoys / Military deployment• Public transport lines TETRA coverage• Pipeline security control systems

Objectives:• Cover 100% of a Public transport line• Receive at least two signals at every position on the track• Perform a site selection to fulfill the above mentioned goals among

a list of potential sites• Perform an azimuth optimization of the selected sites• Study the handover performance along the track according to the

train’s speed

2. Coverage planning2.1. Import, parameter and selection

of the best existing sites2.2. Add new sites to achieve

the coverage objectives

TETRA planning

Route planning functions

Output Site locations: number of stations / antenna configuration

The user can define:

• The receiving antenna height• The receiver’s sensitivity• A limit distance of calculation• Whether an overlapping is required or not• Whether an azimuth optimization is required or not

Automated site selection & azimuth optimization

TETRA planning 2. Coverage planning2.1. Import, parameter and selection

of the best existing sites2.2. Add new sites to achieve

the coverage objectives

Surface planning androute planning functions

Best server coverage

Overlappingareas

Compositecoverage

TETRA planning 2. Coverage planning2.1. Import, parameter and selection

of the best existing sites2.2. Add new sites to achieve

the coverage objectives Coverage maps

TETRA planning 3. Handover planning3.1. Define the neighbor list of

each station

• Handover area colored in pink

• Add stations in areas where HO is not achieved

(planning functions)

TETRA planning 3. Handover planning3.1. Define the neighbor list3.2. Check HO areas3.3. Add sites in areas where

HO is not achieved

Per Clutter: Per Subscriber:

Per Polygons…

TETRA planning 4. Traffic planning4.1. Set the traffic requirements

Get the trafficmap

TETRA planning4. Traffic planning4.1. Set the traffic requirements4.2. Define the number of

channels and slots required per site

Introducing a new service within a current existing situationHow to avoid interferences ? Automatic Frequency Assignment

TETRA planning 5. Frequency plan optimization5.1. Automatic freq assignment

― Minimizing the interference areas between stations/services

― Optimizing the spectrum use by taking advantage of the terrain

TETRA planning 5. Frequency plan optimization5.1. Automatic freq assignment5.2. Optimize the spectrum used

Interference analysis on covered areasChecking the source of the interference on one point

Possible solutions to the problem :• Frequency plan validation• Coverage analysis/modification• Automatic frequency/polar

assignment

Optimizing the spectrum occupancyRe-using frequencies when possible and minimizing interference

TETRA planning 5. Frequency plan optimization5.1. Automatic freq assignment5.2. Optimize the spectrum used5.3. Check interference

In order to reduce interference levels without damaging coverage area

TETRA planning 6. Site parameter optimizing6.1. OptimizeTilt/Azimuth/Power

in order to reduce interference levels

Route planning functions

• Coverage maps / reports

• Handover maps / reports

• Network Interference: C/N+I maps

• Traffic maps

• …

Share network data (ICS online, Google Earth, HTZ spectrum,

GIS)

TETRA planning 7. Network performance analysis7.1. Coverage reports7.2. HO reports and maps7.3. Traffic maps, etc…

ATDI product range

ICS designerThe most comprehensive software for any kind

of radio network planning : TETRA, broadcasting, microwave, WiMax, LTE,

mobile, PMP, etc…

HTZ warfareThe Infrastructure and tactical electronic warfare

radio network planning tool ,adapted for new military concepts

ATDI product range

ICS managerThe most complete and efficient spectrum

management platform for national regulators

ICS map serverAdvanced software system designed to produce

and manage digital cartography

ATDI product range

HTZ spectrumThe First Collaborative Platform for Spectrum

Management, Spectrum Monitoring and Spectrum Engineering

ATDI SA

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