Introduction to SEAMCAT. Example of MCA study

Transcript Introduction to SEAMCAT. Example of MCA study

Introduction to SEAMCAT
Example of MCA study
Stella Lyubchenko
European Communications Office
55th CRAF meeting, 3rd - 5th April 2013
([email protected])
EUROPEAN
COMMUNICATIONS
OFFICE
Nansensgade 19
DK-1366 Copenhagen
Denmark
Telephone:
Telefax:
+ 45 33 89 63 00
+ 45 33 89 63 30
E-mail: [email protected]
Web Site: http://www.cept.org/eco
Outline
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Part 1:
Why SEAMCAT?
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Compatibility/sharing
study tools
• Analytical analysis, usually by worst-case
approach:
– Minimum Coupling Loss (MCL) method, to establish
rigid rules for minimum “separation”
• Statistical analysis of random trials:
– The Monte-Carlo method, to establish probability of
interference for a given realistic deployment scenario
– That is where SEAMCAT comes into picture!
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Purpose
• SEAMCAT is designed for:
– Generic co-existence studies between different
radiocommunications systems operating in same or adjacent
frequency bands
– Not designed for system planning purposes
• Can model any type of radio systems in terrestrial interference
scenarios (mobile, broadcasting, Fixed etc..)
• Used for analysis of a variety of radio compatibility scenarios:
– quantification of probability of interference between various radio
systems (unwanted emissions, blocking/selectivity)
– quantification of throughput and data loss for CDMA and OFDMA
system
• Based on Monte-Carlo generation
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Strategic tool for CEPT
• For performing compatibility/sharing studies
– Used in generating studies for ECC/CEPT Reports
• As a Reference tool
– Recognised at ITU (Rep. ITU-R SM.2028-1)
• As an agreed work platform
– Project Teams (PTs) can focus on the input
parameters and not on the algorithm
– Sharing simulation between proponents ease the
trust in the results
• For educating future generation of spectrum
engineer (Administrations, Industry or University)
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Usage within and
outside CEPT
Source: google analytics on the www.seamcat.org download page (May 2011/2012 period)
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Part 2:
The Graphical User Interface
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Main user interface
• Windows-oriented
• Main element – workspace.sws
Simulation controls:
number of events etc..
Simulations input data – scenario:
Equipment parameters, placement,
propagations settings, etc.
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Simulation results:
dRSS/iRSS vectors,
Pinterference, Cellular
structure
Graphic interface (1/1)
Easy comparison of
workspaces
Easy
view of parameters
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at a glance
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Graphical reminders (tooltip)
Graphic interface (1/2)
Intuitive check of simulation scenario
Shows positions and budget
link information of the victim
and interfering systems
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Overview of results
(dRSS, iRSS)
Part 3:
Flexibility to the User’s need
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Simple and harmonised
interface
Workspaces
Interfering links
On-line Help
Multiple
interferer
generation
Add
Duplicate
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Delete
Welcome + News
History
• Welcome + News
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• History
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Libraries and Batch
• Easy to create workspaces
with predefined libraries
• Edit, import, export
• Easy to run sequentially
workspaces
• Batch operation
• Intuitive use
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Multiple vectors display
Calculated vectors or
external vectors
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Statistics and
signal type
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Propagation model plug-in
• This plug-in may be used to define ANY
kind of propagation model
• No complexity limit
• No limit to the inputs
• Description of inputs
• The plug-in may be inserted at any point
where propagation model is defined in the
scenario
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Comparing propagation
model
Results in linear or
log format
Compare two or more
propagation models
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Part 4:
Systems you can simulate
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System type
Generic
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CDMA
OFDMA
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Generic system
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Cellular modelling
• Modelling of cellular systems as victim,
interferer, or both:
• Quasi-static time within a snapshot
• One direction at a time (uplink or downlink)
• CDMA
• Voice traffic only
• Particular CDMA standard defined
(CDMA2000-1X, W-CDMA/UMTS)
• OFDMA
• LTE
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Part 5:
Calculations in brief
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Interference Calculations
Interfering Modes Interference Criteria
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Unwanted Emissions
• Victim
Receiver Bandwidth
Interferer emission mask
fv
fI
• Interfering System
Interfering emission mask
fI
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Results
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Part 6:
Example of MCA study
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Assumptions for study
• The secondary RAS allocation in the band 2655 – 2690 MHz
• Protection criterion -177dBm in 10MHz which should not be
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exceeded for 2% of time (in SEAMCAT it will be interpreted as a
percentage of snapshots for which criterion is not exceeded)
Telescope height is 50 m.
1 aircraft within 100 km (within a cylinder: 3000 m – 15000 m)
Deployment density considered: 0.0000255 km2
For the secondary RAS allocation in the band 2655 – 2690 MHz;
Max allowed power of IT was calculated -81 dBm in 10 MHz
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Thank you - Any questions?
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