Presentation Michael Street
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Transcript Presentation Michael Street
Standardization in SDR:
The military model and its
applicability to the civil domain
Dr Michael Street
NATO C3 Agency
This presentation contains explanatory notes (in italics)
not included in the original workshop presentation
NATO C3 Agency
The NATO Consultation Command and Control Agency (NC3A) provides
unbiased scientific, technological and acquisition support in all areas of
consultation, command, and control for NATO.
NC3A is a Centre of Excellence in Communications, Command, Control,
Computer, Intelligence, Surveillance and Reconnaissance (C4ISR)
capabilities within NATO.
With a highly competent staff, extensive laboratories and close links with
military users NC3A provides independent and impartial advice for
achieving operational enhancements in NATO’s C3 capability and
supports the provision and procurement of the most capable C4ISR
systems available and their operation in crisis and war.
www.nc3a.nato.int
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Introduction
What do we mean by SDR ?
Common terminology
SDR = “Standards based’ software and radio hardware for SDR
Why do we care about SDR ?
SDR is about implementation, not interoperability
Do we need to standardise it ?
Beyond standards – test, certification and business
models
Comparison with the civil community
Commonality and differences between civil and military SDR communities
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The military “wireless world”
The next slide gives an overview of the wireless communications
required for NATO operations. This shows the areas addressed by
the NATO wireless communication reference architectures.
Military operations may require high throughputs, long ranges,
communication security, transmission security (e.g. anti-jam, low
probability of detection / interception capabilities).
Military radios must support different operational needs which can
only be met with different waveforms (transmission frequency,
modulation scheme, bandwidth, infrastructure e.g. trunked /
satcom systems). Historically this has led to many different radio
standards, systems and radios.
APOD – Airborne port of disembarkation
BLOS – Beyond line of sight (typically HF)
CJTFHQ – Combined joint task force headquarters
CNR – Combat Net Radio (tactical radio)
DCM – Deployed communication [and information services] module
ELOS – Extended line of sight (typically V/UHF)
HF – High frequency (3-30 MHz)
IEG – Information exchange gateway
LOS – Line of sight
MMTF – Multinational maritime task force
NDN – National defence network (wired)
NGCS – NATO wired network
PAN – Personal area network
SPOD – Seaborne port of disembarkation
SSUBBCST – Subsurface broadcas
VLF – Very low frequency
WLAN – Wireless local area network
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Military radio domain
National
SATCOM
NATO
SATCOM
CNR++
National SATCOM
WLAN / PAN
National HQ
CJTFHQ DCM
(Ashore)
MMTF-n
NDN
ASWC
IEG
NATO-PIER
APOD
Tactical Area Network
(ELOS/LOS)
CJMCC / AAWC
MMTF-n-OTC
NATO HQ
Allied Wide-Area Network (ELOS/LOS)
MWC
SPOD
SATCOM-FIP
NGCS
ALLIED WIDE-AREA NETWORK
(HFBLOS)
WLAN / PAN
HF-FIP
NATO-PIER
CJTFHQ
(afloat)
CNR++
MMTF-1
AMPHWC
SPOD
MMTF1-OTC /
AAWC
VLF-SUBBCST
APOD
ASUWC
Allied Wide-Area Network (ELOS/LOS)
Tactical Area Network
(ELOS/LOS)
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Proposed Wireless Net ready
Communications Standards (non –SATCOM)
STANAG
CURRENT
NEW
PROJECTS
2012/14
NNEC NII
2020 NNEC
NII
VLF
5030
5030
5030
5030
HF
4203, 4285,
4415, 4444,
4481, 4529,
4538, 4539,
5066
4203, 4415,
4444, 4481,
4529, 4538,
4539, 5066
4203, 4415,
4444, 4538,
4539, 5066
4203, 4444,
4538, 4539,
5066
VHF
4204, 4292,
4448, 4449
4204, 4292,
4448, 4449,
NBW
4204, 4292,
NBW
4204, NBW
UHF
4205, 4246,
4372
4205, 4372,
NBW, WBW
4205, 4372,
NBW, WBW
4205, 4372,
NBW, WBW
Plus Civil-Military cooperation (CIMIC) services : TETRA, GSM
This slide shows the terrestrial radio standards identified by NATO as being necessary for
the future NATO Network Enabled Capability (NNEC). The number of standards decreases
to simplify interoperability. But there is still a need to support many radio standards
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depending on the operational requirements.
SDR in NATO
Military requirements dictate many different radio
systems – many standards
JTRS initially identified 40+ current standards
JTRS = US Joint Tactical Radio System programme
National requirements
Flexibility
Interoperability
Economics
Larger supplier base, larger markets, lower costs
NATO SDR Users Group (SDRUG)
Provides a focus in NATO for National SDR programmes in the
following nations
AU, CA, ES, FI, FR, GE, IT, PL, TU, SP, SW, UK, US
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Software Defined Radio
SDR [a radio using software] is not new
S/w definition provides flexibility
Increases lifetime of radios
Aids platform fitting
Especially on aircraft
Eases introduction of new techniques
and policies
Frequency management, networking
User interface for military SDR
implementing Mil-Std 188-141A
for HF radio, circa 1992
Portable software to define radios
Requires standards for s/w design & radio h/w
Portability can enable interoperability
Your software + my radio = we interoperate
Portability requires stringent standards on implementation
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Interoperability and Portability
Interoperability requires air interface standards
NATO has many air interface standards e.g. number on slide 6
Further modern radio standards are in development e.g. NBW, WBW
(narrowband / wideband waveform)
Portability requires implementation standards
Implementation standards can aid proliferation of air
interface standards and therefore increase
interoperability
NATO nations are following a standard for SDR
portability
This standard is the software communications architecture (SCA), a
block diagram is shown on the next slide.
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Software Communications Architecture (SCA)
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Software Communications Architecture
SCA is a standard for implementing SDR
Developed by US DoD as the standard for the JTRS programme
Now followed by many national military SDR programmes
SCA is rich, robust, capable and secure
It can support the wide range of radio capabilities needed by military radios
This can mean it is too large, complex and slow for Non-military uses
SCA has well-defined interfaces, APIs etc
Although not all of them can be released or shared
SCA compliant software can be ported to SCA compliant
hardware “easily”
70 % software reuse
Depending on the type of radios, complexity of waveform,
sophistication of code
SCA compliant radios and waveforms are already fielded
Including an SCA software implementation of TETRA !
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… but … some SCA issues remain
Ownership of SCA
Long term custodian of SCA not certain
There may be benefits in a long term custodian which is international
& has a proven record in standards development.
The current custodian will determine the long-term future.
APIs and security
Release of full standards and on-going standardisation of additional APIs
Test & verification
Of h/w, original s/w and ported s/w
Requirement for test and certification as identified by EDA
With an agreed standard, software can be shared,
waveforms ported and interoperability increased
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Sharing SDR software
Standardised SCA
The SCA standards aids development of portable software
basis for development, not “plug and play”
But our users aren’t “plug and play” either
This is a
Usually know months or years in advance who you will need to communicate
/ interoperate with – there may be time to port s/w
AI standards which meet user requirements
How can these be best proliferated ?
Are standardised SCA compliant software definitions the best way to
proliferate use of air interface standards ?
IPR
Pros and cons
Recognise useful effort e.g. s/w development, has value
Software waveform library has been discussed by NATO SDRUG
Model of operation – business model
Type of content – Base waveforms
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Use of base waveforms
The next slide shows the role of a base waveform.
A base waveform is software which implements the complete functionality of a
given radio standard. The software is written entirely in a high level language to
run on a general purpose processor.
Base waveform software does not have to run in real time.
The base waveform provides an intermediate step between the text standard
document and the eventual optimised code which will run on a given target
radio.
Base waveform software is easy to port, but of no operational use.
If implementing a given standard on mulitple radio platforms a base waveform
may significantly reduce the overall development effort. This may aid
implementation of standards on a wide variety of target radios and in a number
of nations.
The following slide gives an example of 3 nations wishing to use the same
NATO standard (S4999) and civil standard (EN 399) on different target radios.
Each combination of target radio / standard will require dome development
effort, but the overall effort is reduced.
While there may be benefit in using base waveforms as an intermedaite step,
who provides and maintains a base waveform is unclear.
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Multinational testing
US have a national test facility = JTeL + JITC
JTeL ensures SCA compliance
Tested against reference SCA implementations
Certification involves porting software to a “reference set”
Software port can be highly automated, but not completely.
Testing of SCA comliance is complemented by interoperability tests
against other radios. Both the implementation and overall
performance are tested.
National developments will require national testing
Use a national facility for multi-national testing ?
A test and verification facility is a significant investment, multi-national
test facility shares cost.
Military requirement is often for multi-national interoperability -> multinational testing
Who is responsible to tests and failures ?
Standards-based products are determined by the testing,
not by the standards documents !
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Multinational testing
Multiple test laboratories
National developments will require national testing
Use a national facility for multi-national testing ?
Multiple labs -> cross-certification
Single lab
Neutrality, single reference
Governence of any multi-national test facility
must be agreed in advance.
“Multi-national testing” at NC3A
What is the scope of required SDR testing ?
Interoperability / compliance
Representative tests vs range of scenarios
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SDR in and beyond NATO
SDR Forum
SCA WG, Public safety SIG, Market trends
Address wider markets
OMG
Software Based Communications
NATO Research & Technology Organisation
Technical focus for national SDR activities
NATO SDR Users Group
“Electro-political”
To establish commitment among nations to exploit the benefits of SDR
technology for multinational interoperability
NATO links to ESSOR, LOI etc
NC3A
Support NATO & Alliance on SDR
Waveform porting, development & library
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Military and civil environments
A comparison of factors influencing the military and civilian radio markets
Customer base
User requirements of
radio
Equipment lifetime
Equipment cost
Development time
Security
Radio platforms
Testing
Military
Limited, govt
Varied
Civil
Widespread
Fairly static
20 years
High
2-10 years
Government
approved
Varied
National or Intl.
< 2 years
Low
Months
Maybe some ..
Limited
Commercial
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Summary - military
SDR is an implementation, standardising SDR is very complex,
but can give the military real benefits
SDR enables varied capability: reqs are varied
NATO wireless architecture user reqs & operational views
SCA exists as an accepted standard
Developments still needed e.g. Interfaces and security
Long term, international management unknown
NATO policy on use of civil standards
S/w waveform library can aid interoperability
Need agreed s/w format – based waveforms ?
Distribution model – industry only, govt supported ?
Interoperability defined by testing, not standards
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Questions for civil SDR
What are the user requirements ?
Is SDR the optimum way to meet them ?
Will the stakeholders support widespread standards for radio
implementation / components ?
Currently have long term non-interoperability e.g. Inter-system-interface
Can end users influence the market sufficiently ?
Is interoperability best provided by a single standard ?
GSM, TETRA
Who tests a reconfigured radio ?
Who is responsible if it fails ?
Is civil SDR / CR about technology, interoperability or user needs?
Betamax, CDi, Sinclair C5 …
Will CR benefit users or make spectrum management easier ?
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Thank you
[email protected]
+31 65 142 1275
Further reading:
NATO Waveform library business model
User requirements for wireless communications in the land tactical domain
Analysis of “network ready” standards for network enabled capability
RTO Lecture series on Emerging Wireless Technologies, 2007
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