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Document Title: Overview of DSA Standards, DySPAN-SC and IEEE 1900.5 Activities Document Date: 01 January, 2014Document No: 5-14-0001-00-subs
Author’s Name Affiliation Address Phone email
Matthew Sherman BAE Systems Wayne, NJ 973-229-9520 [email protected]
Notice: This document has been prepared to assist IEEE DySPAN-SC and its Working Groups. It is offered as a basis for discussion and is not binding on the contributing individual(s) or organization(s). The material in this document is subject to change in6 form and content after further study. The contributor(s) reserve(s) the right to add, amend or withdraw material contained herein. Release: The contributor grants a free, irrevocable license to the IEEE to incorporate material contained in this contribution, and any modifications thereof, in the creation of an IEEE Standards publication; to copyright in the IEEE’s name any IEEE Standards publication even though it may include portions of this contribution; and at the IEEE’s sole discretion to permit others to reproduce in whole or in part the resulting IEEE Standards publication. The contributor also acknowledges and accepts that this contribution may be made public by IEEE DySPAN-SC.
Patent Policy and Procedures: The contributor is familiar with the IEEE Patent Policy and Procedures including the statement "IEEE standards may include the known use of patent(s), including patent applications, provided the IEEE receives assurance from the patent holder or applicant with respect to patents essential for compliance with both mandatory and optional portions of the standard." Early disclosure to IEEE DySPAN-SC and its Working Groups of patent information that might be relevant to the standard is essential to reduce the possibility for delays in the development process and increase the likelihood that the draft publication will be approved for publication. Please notify the Chair <[email protected]> as early as possible, in written or electronic form, if patented technology (or technology under patent application) might be incorporated into a draft standard being developed within the IEEE DySPAN-SC Committee. If you have questions, contact the IEEE Patent Committee Administrator at < [email protected] >.
IEEE 1900.5 Contribution
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Preface
• Anything not verbatim from a standard is the authors’ personal opinion– Not a view of BAE Systems, IEEE, DySPAN-SC, or the IEEE
1900.5 WG
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Outline
DSA Standards BackgroundIEEE DySPAN-SC Overview1900.5 Deep Dive
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Recent cognitive standards efforts
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DSA Standards in 2013 – There is a lot going on….
Boiling it down…• Many White Space MAC / PHY being developed – particularly in IEEE 802
– IEEE 802.11, 802.15, 802.16, 802.22– IEEE 1900.7– ECMA-392– WhiteSpace Alliance
• Will LTE / 3GPP become a player?
• IETF addressing White Space Database– Protocol for Access to White Space (PAWS) Database
• IEEE DySPAN-SC / 1900 providing may supporting technologies– Definitions– Architectures– Analysis– Language– Sensing
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Outline
DSA Standards BackgroundIEEE DySPAN-SC Overview1900.5 Deep Dive
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What is DySPAN-SC?• IEEE Dynamic Spectrum Access Networks (DySPAN) Standards Committee
(DySPAN-SC)– Originated as IEEE P1900 -> IEEE SCC 41 -> DySPAN-SC– http://grouper.ieee.org/groups/dyspan/ – Home to the IEEE 1900 working groups– “Owns” the P1900 series of standards…
• Scope (from http://grouper.ieee.org/groups/dyspan/) – dynamic spectrum access radio systems and networks with the focus on
improved use of spectrum– new techniques and methods of dynamic spectrum access including the
management of radio transmission interference, and – coordination of wireless technologies including network management and
information sharing amongst networks deploying different wireless technologies
• Next meeting: Check http://grouper.ieee.org/groups/dyspan/
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IEEE DySPAN-SC Organization
8
IEEE 1900.1: Standard Definitions and Concepts for Spectrum Management and Advanced Radio System Technologies
IEEE 1900.2: Recommended Practice for Interference and Coexistence Analysis
IEEE 1900.4: Standard for Architectural building blocks enabling network-device distributed decision making for optimized radio resource usage in heterogeneous wireless access networks
IEEE 1900.5: Standard on Policy Language and Policy Architectures for Managing Cognitive Radio for Dynamic Spectrum Access Applications
IEEE 1900.6: Standard on interfaces and data structures for exchanging spectrum sensing information for dynamic spectrum access systems IEEE 1900.7: Standard on radio interface for white space dynamic spectrum access radio systems supporting fixed and mobile operation
DySPAN-SC P1900.1
P1900.2
P1900.4
P1900.5
P1900.6
P1900.4a
P1900.4.1
Working group (WG)
P1900.7
P1900.1a
P1900.6a
P1900.5.1
P1900.5.2
Derived from: Order of Business for 8th General Meeting of IEEE DySPAN. DCN: SC-13-0038-00-MTNG https://mentor.ieee.org/dyspan-sc/dcn/13/sc-13-0038-00-MTNG-august-2013-arlington-meeting-order-of-business.ppt
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Outline
DSA Standards BackgroundIEEE DySPAN-SC Overview1900.5 Deep Dive
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1900.5 Standards
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2008
CompletedDevelopmentof standard
Completionof standard
1900.5
2009 2010 2011 2012 2013 2014 2015 2016
Regulatory Activities
1900.5.1
1900.5.2
1900.5.3
WG Draft
ExpectedDevelopmentof standard
1900.5a
1304
• This standard specifies policy language (PL) requirements and policy architecture (s) for policy-based dynamic spectrum access (DSA) radio systems. In this standard, a distinction is made between the policy reasoning that is accomplished within the Policy Based Radio (PBR) node and policy generation and validation that is accomplished through a policy generation system prior to provision of the policy to the PBR node. Policy reasoning may be distributed, i.e., it may take place either within a PBR node or in other elements of a policy based radio communications network.
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IEEE 1900.5 System Architecture
Source: “IEEE Standard for Policy Language Requirements and System Architectures for Dynamic Spectrum Access Systems,” IEEE Std 1900.5™-2011, 13 January 2012
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Requirements from IEEE 1900.5 (there are many more)
• In order to evaluate policy languages options, it is important to know what the basic requirements are for the language. These were determined in developing IEEE 1900.5:
– A declarative language shall be used.– A policy language shall have clear and unambiguous syntax and semantics.– The policy language shall have the capability for annotations.– The policy language shall have a machine-understandable syntax.– The policy language may have an easily human understandable syntax. – The policy language shall support permissive policies and restrictive policies. – The policy language shall be capable of expressing inheritance and extension of policies.– The language shall be capable of specifying the dynamics (behaviors), including temporal
aspects, of policy based dynamic spectrum access radio system components. – The policy language shall include the ability to introduce definitions of new functions in terms
of other known functions and allow inferring relationships between two functions, such as whether two functions are equivalent or not.
– The expressivity of the policy language shall include the following: Classes, Individuals, Binary relations, Composition of relations, Functions, Temporal aspects of the system, Behavioral descriptions, State of the system, and Rules)
– The policy language shall be explicit about which negation [logical negation or negation as failure (NAF)] it supports.
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Source: “IEEE Standard for Policy Language Requirements and System Architectures for Dynamic Spectrum Access Systems,” IEEE Std 1900.5™-2011, 13 January 2012
IEEE P1900.5.1
• Title– Standard Policy Language for Dynamic Spectrum Access Systems.
• Scope– This standard defines a vendor-independent policy language for managing the functionality and
behavior of dynamic spectrum access networks based on the language requirements defined in the IEEE 1900.5 standard. The standard developed under this PAR will take into consideration both the Policy Language Requirements of IEEE 1900.5 and the results of the Modeling Language for Mobility Work Group (MLM-WG) within the Wireless Innovation Forum (SDRF v2) Committee on Advanced Wireless Networking and Infrastructure. MLM-WG is developing use cases, an ontology, corresponding signaling plan, requirements and technical analysis of the information exchanges that enable next generation communications features such as spectrum awareness and dynamic spectrum adaptation, waveform optimization, capabilities, feature exchanges, and advanced applications. The MLM-WG expects this effort to lead to specifications/standards for languages and data exchange structures to support these capabilities..
• Status– Ongoing– Selected Editor– Starting process of creating consensus draft
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Source: P1900.5.1 Project Authorization Request (PAR)http://grouper.ieee.org/groups/dyspan/5/P1900.5.1.pdf
P1900.5.1 Development Approach
• Leverage existing components to speed development– OWL 2 RL (W3C) – both syntax and semantics– Cognitive Radio Ontology (CRO) (WinnForum)– RIF (Rule Interchange Format) (W3C)
• Plus Procedural Attachments
– Deontic Policy Ontology
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Source: Mitch Kokar, “Overview of MLM Contribution for Aug. 26-29 Meeting,” DCN: 5-13-0047-00-mmat, 26 August 2013 https://mentor.ieee.org/1900.5/dcn/13/5-13-0047-00-mmat-summary-of-the-mlm-submission-slides.pptx
IEEE P1900.5.2
• Title– Standard Method for Modeling Spectrum Consumption
• Scope– This standard defines a vendor-independent generalized method for modeling spectrum
consumption of any type of use of RF spectrum and the attendant computations for arbitrating the compatibility among models. The methods of modeling are chosen to support the development of tractable algorithms for determining the compatibility between models and for performing various spectrum management tasks that operate on a plurality of models. The modeling methods are exclusively focused on capturing spectrum use but are defined in a schema that can be joined with other schemata of business processes of spectrum management or behavioral aspects of spectrum policy.
• Status– Ongoing– Selected Editor– Starting process of creating consensus draft
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Source: P1900.5.2 Project Authorization Request (PAR)http://grouper.ieee.org/groups/dyspan/5/P1900.5.2.pdf
15
The Role of Spectrum Consumption Models
16
(loose coupler)
Spectrum UseDiversity
Spectrum ManagementDiversity
SCMChannel
configuration
Digital spectrum
policy
Spectrum use
Network Operations and Spectrum Management
RF Coexistence and Dynamic Spectrum Access
Innovation
Innovation
Standardization
SCMs are designed to serve as a loose coupler for the spectrum
management enterprise
Source: John Stine, “Spectrum Consumption Modeling Proprosal,” DCN: 5-13-0042-01-subs, 25 August 2013 https://mentor.ieee.org/1900.5/dcn/13/5-13-0042-01-subs-scm-proposal-overview.ppt
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MITRE Proposal has 12 Constructs• Total power• Spectrum mask• Underlay mask• Power map• Propagation map• Intermodulation masks• Platform• Location• Start time• End time• Minimum power spectral flux density• Protocol or policy
17
Captures the spectral content of the signal and the unique characteristics of
spread spectrum systems
Can capture antenna effects
Can capture behaviors that enable compatible reuse
Can capture environmental effects
Captures susceptibility to intermodulation
Enable greater resolution in spectrum management
Captures a definition of interference
Most constructs have probability data elements to declare confidence in parts that are variable or are uncertain
Source: John Stine, “Spectrum Consumption Modeling Proposal,” DCN: 5-13-0042-01-subs, 25 August 2013 https://mentor.ieee.org/1900.5/dcn/13/5-13-0042-01-subs-scm-proposal-overview.ppt
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THE END
For more info feel free to contact Matthew Sherman (Chair, IEEE 1900.5) at [email protected]
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