DOCUMENT #: GSC15-GRSC8-08

FOR: Presentation

SOURCE: ETSI

AGENDA ITEM: GRSC8 4.3

CONTACT(S): Markus Mueck, TC RRS Chair

Reconfigurable Radio Systems (RRS)

Presenter: Gabrielle Owen,TC ERM Chair

Global Standards Collaboration (GSC) GSC-15

Overview Role and Structure of ETSI RRS Cognitive Radio Activities in RRS

• Cognitive Radio Approach• Cognitive Pilot Channel• Functional Architecture• Novel activities related to: TV White Spaces

Software Defined Radio Activities in RRS• Mobile Device SDR Architecture• Reconfigurable Base Stations

Related Activities in ETSI ERM / STF386 Conclusions

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Role and Structure of ETSI RRS TC RRS’ main responsibility is to carry out standardization activities

related to Reconfigurable Radio Systems encompassing both Software Defined Radio (SDR) and Cognitive Radio (CR).

TC RRS is building on the following Working Group structure:• WG1 focuses on “System Aspects” and develops proposals from a

system aspects point of view for a common framework in TC RRS;• WG2 focuses on SDR technology with a particular interest in “Radio

Equipment Architecture” and proposes common reference architectures for SDR/CR radio equipments;

• WG3 focuses on "Cognitive Management and Control"; the group addresses functionalities for Reconfigurable Radio Systems which are related to the Spectrum Management and Joint Radio Resource Management across heterogeneous access technologies;

ETSI TC RRS

WG1: RRS System

Aspects

WG2: Reconfigurable

Radio Equipment

Architecture

WG3: Cognitive

Management and Control

WG4: RRS Public

Safety

• WG4 focuses on “Public Safety” and collects and defines the related RRS requirements from relevant stakeholders in the Public Safety and Defense domain. 3

RRS Cognitive Radio Approach Centralized and Decentralized CR System (CRS) Concepts

Regulatory Information System

JRRM

Policies

RAN Type B

Composite Wireless Network (CWN)

Cognitive NMS (C-NMS)

RAN Type A

Legacy UEsMultiradio UEs (MUE) with network guided operation

Cognitive Mesh Network (CMN)

Cognitive Control Network (CCN)

OSM

MUEs with autonomic operation

Regulatory Information System

JRRM

Policies

RAN Type B

Composite Wireless Network (CWN)

Cognitive NMS (C-NMS)

RAN Type A

Legacy UEsMultiradio UEs (MUE) with network guided operation

Cognitive Mesh Network (CMN)

Cognitive Control Network (CCN)

OSM

MUEs with autonomic operation

• Objective: Provision of more efficient and flexible use of spectrum by Obtaining knowledge of the radio operational environment and location, Deciding on the gathered information and acting based on this decision, Learning from the results obtained.

• Four CRS deployment examples are proposed:

dedicated spectrum, shared spectrum, secondary usage in

dedicated spectrum, and spectrum dedicated for

CRS.

• The overall ETSI RRS cognitive radio system concept is shown on the right hand side. 4

Cognitive Pilot Channel (CPC) & Functional Architecture (FA) in RRS

JRRMJoint Radio Resource

Management

RAT 1 RAT 2 RAT n…

DSMDynamic Spectrum Management

DSONPMDynamic Self-Organising

Network Planning and Management

CCMConfiguration Control

Module

CJ

MJMC

CR J R

MS

JRRMJoint Radio Resource

Management

RAT 1 RAT 2 RAT n…

DSMDynamic Spectrum Management

DSONPMDynamic Self-Organising

Network Planning and Management

CCMConfiguration Control

Module

CJ

MJMC

CR J R

MS

DatabaseDatabase

CPC Scope: The Cognitive Pilot Channel (CPC) serves mainly to support the user terminal for an efficient discovery of the available radio accesses in a heterogeneous wireless environment.

FA Scope: Network with heterogeneous access technologies Reconfigurable UEs / Mobile Devices and Reconfigurable Base Stations;

Functional Architecture addresses generic framework on possible SON (3GPP TS 36.300) evolution concepts, etc.

New activities started on TV White Spaces. 5

Software Defined Radio Activities SDR in Mobile Devices: RRS has proposed the

SDR architecture illustrated on the right hand side with the following capabilities:

• Multiradio configuration capability;• Multiradio operation capability;• Multiradio resource sharing capability.

Interface definitions are currently ongoing.

SDR in Reconfigurable Base Stations: The following general requirements are derived:

• Transition from one standard to a new;• Multi-standard use, frequency re-farming;• Spectrum trading & secondary spectrum usage;• Dynamic capacity optimization depending on load;• Network planning and adaptation, antenna tuning;• Backhaul reconfiguration for flat architecture. 6

Related Activities in TC ERM / STF 386

Development of cognitive interference mitigation techniques for use by PMSE devices (Programme Making and Special Events)

Achieve co-existence of high audio quality PMSE devices using often a 100% transmitter duty cycle emission profile with victim radio services such as Services in L-Band or Broadcast Services and future Land Mobile Services and applications in UHF frequency range that is currently under investigation under the “Digital Dividend” discussions in EC, ECC and ETSI fora

See also separate presentation on cognitive-PMSE (C-PMSE).

Bodypack for ENG

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Conclusions

Cognitive Radio / Software Defined Radio Activities are well advanced within ETSI;

SDR mainly focuses on Mobile Device Architecture & Interface definitions between distinct stakeholder domains (Device / Component Manufacturer, etc.);

CR mainly focuses on devices operating in a heterogeneous context, flexible & dynamic spectrum/resource management and TV White Space operation as a future topic;

There are close ties between TC RRS and TC ERM & STF386 on cognitive interference mitigation techniques for use by PMSE devices .

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Supplementary Slides

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References / Further reading ETSI Reconfigurable Radio Systems – Status and Future Directions on Software Defined

Radio and Cognitive Radio Standards, Markus Mueck, Antti Piipponen, George Dimitrakopoulos, Kostas Tsagkaris, Fernando Casadevall, Panagiotis Demestichas, Jordi Pérez-Romero, Oriol Sallent, Gianmarco Baldini, Stanislav Filin, Hiroshi Harada, Merouane Debbah, Thomas Haustein, Jebns Gebert, Benoist Deschamps, Paul Bender, Michael Street, Kari Kalliojärvi, Sithamparanathan Kandeepan, Jaswinder Lota, Aawatif Hayar, IEEE Communications Magazine, September, 2010

ETSI TR 102 802: “Reconfigurable Radio Systems (RRS); Cognitive Radio System Concept”, 2009

ETSI TR 102 680: "Reconfigurable Radio Systems (RRS); SDR Reference Architecture for Mobile Device", 2009

ETSI TR 102 681: " Reconfigurable Radio Systems (RRS)); Radio Base Station (RBS) Software Defined Radio (SDR) status, implementations and costs aspects, including future possibilities ", 2009

ETSI TR 102 682: "Reconfigurable Radio Systems (RRS); Functional Architecture for Management and Control of Reconfigurable Radio Systems", 2009

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References / Further reading, cont’d ETSI TR 102 683: “Reconfigurable Radio Systems (RRS); Cognitive Pilot Channel

(CPC)”, 2009 ETSI TR 102 745: “Reconfigurable Radio Systems (RRS); User Requirements for Public

Safety”, 2009 ETSI TR 102 733: “Reconfigurable Radio Systems (RRS); System Aspects for Public

Safety”, 2009 ETSI TR 102 799: “Operation methods and principles for spectrum access systems and

quality control of used spectrum for PMSE technologies and the guarantee of a high sound production quality on selected frequencies utilising cognitive interference mitigation techniques”, 2010.

Draft ETSI TR 102 800: “Protocols for spectrum access and sound quality control systems using cognitive interference mitigation techniques”, 2010.

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