HL7 Development Framework Tutorial

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HL7 Development Framework Tutorial

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Title: HL7 Development Framework Tutorial

1
HL7 Development Framework Tutorial

Abdul-Malik Shakir
Principal Consultant, Shakir Consulting
April 2003

2
My HL7 Background

Abdul-Malik Shakir
Principal Consultant, Shakir Consulting, La
Verne, CA
HL7 Member since 1991
Member of the HL7 Board of Directors
Chair of the Education and Implementation
Committee
Member of the Architectural Review Board
Member of the Process Improvement Committee
Co-Chair of the Modeling and Methodology
Committee
Project Manager for the HL7 Development Framework
Project

3
Session Objectives

To raise awareness of the HL7 Development
Framework (HDF) project.
To summarize the accomplishments and remaining
planned activities of the HDF project.
To introduce the HDF metamodel and its
relationship to the UML metamodel
To introduce the HDF methodology and its
relationship to the MDF methodology
To encourage your participation in designing and
deploying the HDF methodology.

4
Session Overview

Session I
HL7 Development Framework Project
Unified Modeling Language Metamodel
HDF UML Profile and Metamodel
HDF Model Interchange Format
Session II
HL7 Message Development Framework
HDF Development Methodology
HDF Pilot Projects
HDF Developers Guide
HDF Transition Planning

HL7 Development Framework Project

6
Project Introduction

The purpose of the Health Level Seven (HL7)
Development Framework Project is to research,
analyze, design, and document the processes,
policies, and artifacts associated with
development of HL7 published specifications and
standards.
The HL7 Development Framework (HDF) project will
Expand HL7s modeled-based approach for standards
development beyond messaging to its other
standards such as structured documents, context
management, and standards related to electronic
health records
Maximize the benefits HL7 derives from using the
Unified Modeling Language (UML) as a foundation
for its model-based approach to standards
development
Facilitate increased participation of HL7
members, subject matter experts, and implementers
in the development of HL7 standards.
Enable HL7 to remain the industry leader in
model-driven development of comprehensive
standards for application interoperability in the
Health industry.

7
Project Background Health Level Seven

The mission of HL7 is to provide a comprehensive
framework and related standards for the exchange,
integration, storage, and retrieval of health
information that support clinical practices and
the management, delivery and evaluation of health
services.
HL7 began developing standards in 1987 with the
publication of its messaging specification - the
Application Protocol for Electronic Data Exchange
in Healthcare Environments.
In the years since its founding, HL7 has evolved
beyond traditional messaging protocols to include
clinical document architectures, medical logic
modules, component specifications, and standards,
guidelines, and related services for the
management of electronic health records.

8
The Family of HL7 Specifications and Standards

Version 2.x and 3.x messaging specifications
Knowledge representation and clinical decision
support (Arden Syntax)
Specification of components for context
management (CCOW)
Standardization of clinical document structures
(CDA)
Vocabulary definitions for use in clinical
messages and documents
Standards, methodologies and services related to
electronic health records (EHR)
Informative specifications in the area of
security, privacy, and accountability.

9
Project Background HL7 V3 Methodology

In 1992 HL7 made a fundamental shift in the
method it uses to develop its specifications and
standards.
The new methodology, referred to as HL7 Version
3.0 (or V3), is a model-driven standards
development methodology based upon modern
object-oriented software development practices.
In January 1996, the HL7 Technical Steering
Committee adopted the model-driven approach and
the Modeling and Methodology Technical Committee
assumed primary responsibility for ongoing
development of the V3 methodology.

10
Project Background HL7 MDF Process Model
11
HL7 Message Development Framework

The HL7 Message Development Framework (MDF)
defines the HL7 V3 message development process.
It identifies the phases, activities, and models
used in the process of developing HL7 message
specifications.
The HL7 MDF was first published in 1997. It has
undergone two major revisions since then once in
1998 and again in 1999.
The current version of the MDF (v3.3), published
in December 1999, has not been maintained and is
consequently out of alignment with current
message development practices.

12
HDF Development Methodology Specification

The HDF Development Methodology Reference Manual
is a replacement for and an extension to the HL7
Message Development Framework (MDF).
The HDF Development Methodology Reference Manual
differs from the MDF in terms of
Scope of Coverage
Alignment with UML
Maintenance/versioning Procedures
Companion documents to the HDF Development
Methodology Reference Manual are
The HDF Metamodel Specification
The HDF Developers Guide

13
HDF Project Scope and Objectives

Project Scope
Develop and publish the HDF Development
Methodology Reference Manual
Develop and publish the HDF UML Profile and
Metamodel Specification
Develop and publish the HDF Developers Guide
Project Objectives
Expand the modeled-based approach for standards
development beyond the HL7 messaging standard.
Embrace the UML standard, conventions, and
practices as the foundation for the HL7
model-based approach to standards development.
Facilitate the participation of HL7 members,
subject matter experts, and implementers in the
development of HL7 standards.
Enable HL7 to remain the industry leader in
model-driven development of comprehensive
standards for application interoperability in the
Health industry.

14
HDF 2002 Accomplishments

Defined the HDF project scope and objectives
Organized project team and team member
assignments
Mapped the MDF to the UML metamodel
Reconciled MDF and UML metamodel discrepancies
Used UML extension mechanisms to define an HL7
UML Profile
Established a broad outline of the HDF
development process
Prepared and reviewed initial drafts of the seven
chapters describing the phases of the HDF
development lifecycle
Prepared and presented tutorials on the HDF at
two HL7 working group meetings

15
HDF 2003 Objectives

Prepare phase II project charter
Obtain project approval and funding
Finalize documentation of the development
lifecycle
Conduct pilots of the development process
Publish release 1 of the HDF Development
Methodology Reference Manual
Publish release 2 of the HDF UML Profile and
Metamodel
Publish release 1 on the HDF Model Interchange
Format
Prepare an initial draft of an HDF Developers
Guide
Establish a transition plan for the HDF process
and metamodel

16
HDF Phase II Subproject Timelines and Task Leaders

HDF Project Planning and Management
01/06/2003 01/05/2004 Abdul-Malik Shakir
HDF Development Methodology Reference Manual
01/06/2003 12/26/2003 Abdul-Malik Shakir
HDF Metamodel and Model Interchange Format
02/03/2003 12/26/2003 Tony Mallia and Lloyd
Mckenzie
HDF Pilot Projects
01/06/2003 09/05/2003 Charlie Mead
HDF Developers Guide
06/23/2003 12/05/2003 Woody Beeler
HDF Transition Planning
06/23/2003 12/26/2003 Mead Walker

Unified Modeling Language Metamodel

18
Unified Modeling Language Overview

The models used in the HL7 V3 process are based
upon the Unified Modeling Language (UML).
UML is a graphical language for visualizing,
specifying, constructing, and documenting the
artifacts of a software-intensive system.
UML is an Object Management Group standard that
represents the unification of best practices in
practical object-oriented modeling.
Development of the UML began in 1994 when James
Rumbaugh and Grady Booch of Rational Software
Corporation began combining the concepts from the
Object Modeling Technique (OMT) and Booch
methods, resulting in a unified specification in
1995.
In the Fall of 1995, Ivar Jacobson joined
Rational and the unification effort, merging in
the Object-Oriented Software Engineering method
(OOSE).
The joint work of Rumbaugh, Booch, and Jacobson
was called the Unified Modeling Language (UML).

19
UML Core Development Team
The following persons were members of the core
development team for the UML proposal or served
on the first or second UML Revision Task Force

Colorado State University Robert France
Computer Associates John Clark
Concept 5 Technologies Ed Seidewitz
Data Access Corporation Tom Digre
Enea Data Karin Palmkvist
Hewlett-Packard Company Martin Griss
IBM Corporation Steve Brodsky, Steve Cook
I-Logix Eran Gery, David Harel
ICON Computing Desmond DSouza
IntelliCorp and James Martin Co. James Odell
Kabira Technologies Conrad Bock
Klasse Objecten Jos Warmer
MCI Systemhouse Joaquin Miller
OAO Technology Solutions Ed Seidewitz

ObjecTime Limited John Hogg, Bran Selic
Oracle Corporation Guus Ramackers
PLATINUM Technology Inc. Dilhar DeSilva
Rational Software Grady Booch, Ed Eykholt, Ivar
Jacobson, Gunnar Overgaard, Jim Rumbaugh
SAP Oliver Wiegert
SOFTEAM Philippe Desfray
Sterling Software John Cheesman, Keith Short
Sun Microsystems Peter Walker
Telelogic Cris Kobryn, Morgan Björkander
Taskon Trygve Reenskaug
Unisys Corporation Sridhar Iyengar, GK Khalsa,
Don Baisley

20
Primary Design Goals of the UML

Provide users with a ready-to-use, expressive
visual modeling language to develop and exchange
meaningful models.
Furnish extensibility and specialization
mechanisms to extend the core concepts.
Support specifications that are independent of
particular programming languages and development
processes.
Provide a formal basis for understanding the
modeling language.
Encourage the growth of the object tools market.
Support higher-level development concepts such as
components, collaborations, frameworks and
patterns.
Integrate best practices.

21
UML Model Views and Diagrams
22
UML Model Diagrams and Views

Use Case Diagram
Class Diagram
Behavior Diagrams
State-chart Diagram
Activity Diagram
Interaction Diagrams
Sequence Diagram
Collaboration Diagram
Implementation Diagrams
Component Diagram
Deployment Diagram

23
Packages of the UML Metamodel

Foundation
Core
Datatypes
Extension Mechanisms
Behavioral Elements
Common Behavior
Collaborations
State Machines
Activity Graphs
Use Cases
Model Management

24
UML Metamodel - Foundation Core
25
UML Metamodel - Foundation Core

Models contain Model Elements including the
generalizable element Classifier.
Classifiers have structuraland behavioral
Features such as attributes, operations, and
methods.

26
UML Metamodel Model Management
27
UML Metamodel Model Management

A Package forms a Namespace for the model
Elements it owns.
A Package may import Model Elements ownedby
other Packages.
A model is a type of Package.

28
UML Metamodel Common Behaviors
29
UML Metamodel Common Behaviors

UML Behavioral specificationsinclude a sequence
of Actionswith an ordered set of Arguments.
UML Actions include create, call, return, send,
terminate, destroy, and uninterpreted actions.

30
UML Metamodel - Extension Mechanisms
31
UML Metamodel - Extension Mechanisms

The UML Metatmodel isextended by using
Stereotypes
Tag Definition
Constraints
Tagged Values.

32
UML Extension Mechanisms

Stereotype
A stereotype is, in effect, a subclass of an
existing metamodel element with the same form
(attributes and relationships) but with different
intent. A stereotyped element may have
additional constraints on it from the base
metamodel class. It may also have tagged values
that add information needed by elements branded
with the stereotype.
Tag Definition
Tag definitions specify new kinds of properties
that may be attached to model elements. The
actual properties of individual model elements
are specified using Tagged Values. Tag
definitions are used to define the virtual meta
attributes of the stereotype to which they are
attached.
Stereotype Constraint
Designates constraints that apply to all model
elements branded by the stereotype to which they
are attached. A constraint is semantic
information attached to a model element that
specifies conditions and propositions that must
be maintained as true otherwise, the associated
model element is not well-formed.
Tagged Value
A tagged value is a keyword-value pair that may
be attached to any kind of model element. The
keyword is called a tag. Each tag represents a
particular kind of property applicable to one or
many kinds of model elements.

HL7 Development Framework Metamodel

34
HDF Metamodel Development
35
HL7 Message Development Framework Metamodel

The MDF metamodel v1.13 is included in the
December 1999 MDF (v3.3).
The MDF metamodel was updated in August 2000
(v1.14) to include major revisions to the message
design model.
The MDF metamodel was updated again in May of
2002 (v1.16) to reflect major revisions to the
practice of producing design information models
based upon the RIM.
The HDF Metamodel is base upon a comparison of
the UML v1.4 metamodel to v1.16 of the MDF
metamodel (including proposed revisions to the
vocabulary portion).

36
Packages of the MDF Metamodel

Model Identification and Scope
Use Case Model
Reference Information Model
Information Model
Vocabulary Domain Model
Datatype Model
Message Specification Model
Design Information Model
Hierarchical Message Description
Interaction Model
Application Roles
Interactions

37
Packages of the UML Metamodel

Foundation
Core
Datatypes
Extension Mechanisims
Behavioral Elements
Common Behavior
Collaborations
State Machines
Activity Graphs
Use Cases
Model Management

38
Mapping of the MDF to UML
39
MDF to UML Metamodel Mapping Discrepancies

Model identification data needs to be expanded to
include data needed for HL7 model management such
as responsible HL7 committee and project.
Provisions are needed to address the MDF
meta-classes Composite Datatype and Datatype
Component.
Significant enhancements to the UML metamodel is
needed to address the issue of Vocabulary
domains.
The concepts introduced by MDF in the Design
Information Model and Hierarchical Message
Description packages are completely addressed
within the UML metamodel however significant
rethinking of the jargon and processes in this
area is required.
The mapping of concepts in the Interaction
Portion of the MDF metamodel is fairly straight
forward. Most of the conceptual difficulties
come as a result of unfortunate homonyms between
the two metamodels. For example, each model
includes the terms Interaction but with different
semantics.
The UML metamodel features used to express
constraints will need to be more elaborate than a
simple Boolean text expression. Constraints are
a major component of any HL7 standard
specification.
The MDF concepts of Receiver Responsibility and
Trigger Event will need to be resolved with the
overlapping concepts of Action and Event in the
UML metamodel.

40
MDF Model Identification and Scope
41
UML Metamodel Model Management
42
HDF Model Management
Extensions to the UML Metamodel
43

The HL7 UML Profile uses the UML extension
mechanisms to define HL7 stereotypes and tags.
Each HL7 Stereotype is associated with a single
UML base class.
A list of Tags and Constraints is specified for
each stereotype.
A definition is provided for each Tag specified
for sterotypes.

44
UML Metamodel - Extension Mechanisms
45
Stereotypes in the HL7 Profile

Clone
CodedValue
CodeSet
DataTypes
DIM
HL7Attribute
HL7DataType
HL7Model

HL7ModelElement
HL7Package
RegisteredCodeSystem
RIM
UsageContext
Vocabulary
VocabularyDomain

46
HDF UML Profile Stereotype Specifications
47
HDF UML Profile Tag Value Specifications
48
HDF Metamodel
HDF Metamodel UML Metamodel HDF UML Profile
49

HDF Model InterchangeFormat

50
Model Interchange Requirements
Rational Rose
Rose Tree
Model Repository Design Database / Publication
Database
RMIM Designer
Schema Generator
51
Model Interchange Format Objectives

Leverage the technology independent
characteristic of XML
Establish stability in the format of files used
to exchange model artifacts between tools
Facilitate the validation of model interchange
files
Facilitate the exchange of model artifacts with
external entities
Prepare for implementation of registries,
templates, and conformance profiles

52
MIF Schema Specifications

mifBase.xsd
mifConformanceProfile.xsd
mifDatatype.xsd
mifDynamicElements.xsd
mifExtendedMarkup.xsd
mifGlossary.xsd
mifImplementationElements.xsd
mifPackage.xsd

mifPatternTypes.xsd
mifStaticBase.xsd
mifStaticModelBase.xsd
mifStaticModelFlat.xsd
mifStaticModelSerialized.xsd
mifTemplateElements.xsd
mifVocabularyElements.xsd
pubDisplayMarkup.xsd

53
Planned MIF Activities

Conduct a peer-review of the MIF schema
specifications
Align relevant portions of the MIF schema
specifications with the HDF metamodel
Migrate existing tooling interfaces to use the
MIF schemas
Use the MIF schema specifications for definition
of an HL7 artifact registry
Extend the MIF schema specifications for use in
conformance, templates, localizations, . . .

54
Session I Review

HL7 Development Framework Project
Unified Modeling Language Metamodel
HDF UML Profile and Metamodel
HDF Model Interchange Format

55
Cookie Break 30 Minutes
56
Session II Overview

HL7 Message Development Framework
HDF Development Methodology
HDF Pilot Projects
HDF Developers Guide
HDF Transition Planning

HL7 Message Development Framework

58
The MDF Methodology Overview
59
MDF Models and Process Flow
Storyboard
60
HL7 V3 Conceptual Model
61
HL7 V3 Conceptual Model

An Application Role is the sender or receiver of
one or more Interaction.
An Interaction fulfills a information exchange
requirement defined in Storyboards and
exemplified in Storyboard Examples.
An Application Role sends an Interaction in
response to a Trigger Event or as part of its
receiver responsibility.
A Trigger Event is associated with a state
transition of a Reference Information Model (RIM)
class or with a temporal event.
An Interaction contains one or more Message Type
defined in an Hierarchal Message Description
(HMD).
An HMD is a constrained tabular view of
hierarchically ordered data structures from a
Refined Message Information Model (R-MIM).
A R-MIM is a constrained refinement of a Domain
Message Information Model (D-MIM).
A D-MIM is a domain specific instantiation of a
subset of classes, attributes, and relationships
derived from the RIM.

62
Simplified MDF Metamodel
Information Modeling
Interaction Modeling
Message Design
Use Case Modeling
63
MDF Methodology in a nut shell

Use Case Modeling
Produce a storyboard example
Generalize the storyboard example into a
storyboard
Information Modeling
Define classes, attributes, datatypes, and
relationships
Define vocabulary domains, value sets, and code
systems
Define states, trigger events, and transitions
Interaction Modeling
Define application roles
Define interactions
Message Design
Define D-MIM, R-MIM, and CMETs
Define HMD and Message Types

64
HL7 V3 Methodology (in English)

What application interface problem are we trying
to solve?
What application systems are within the scope of
the problem domain?
What information needs to be communicated between
the in-scope applications?
What is the definition, format, and
interrelationship of the information to be
communicated?
What events initiate communication between
applications?
How should the information to be communicated
between applications be structured and packaged?

HL7 Development Framework Methodology

66
Seven Phases of the HDF Methodology

Project initiation and management
Requirements gathering and analysis
Requirements normalization and harmonization
Specification design and packaging
Specification publication and balloting
Specification refinement and localization
Specification implementation and validation

67
HDF Methodology Phases

Project Initiation and Management Prepare
project charter and define the scope, objective,
and approach for the project.
Requirements Gathering and Analysis Prepare a
requirement specification with models of the
static, behavioral, and business rule
requirements of the standards to be developed.
Requirements Normalization and Harmonization
Normalize the requirements models to adhere to
the structure and style of the HL7 reference
models and reconcile variances between the
requirements models and the HL7 reference models.
Specification Design and Packaging Derive
specification design models from HL7 Reference
Models guided by the contents of the requirements
specification.
Specification Publication and Balloting
Assemble the specification designs into ballot
packages and conduct committee and membership
level ballots. Publish the membership approved
specification as a standard.
Specification Refinement and Localization
Define context sensitive refinements of balloted
standards and register the refined specification
as a usage template for the standard. Refine and
extend balloted specifications to accommodate
unique local requirements within the jurisdiction
of HL7 international affiliates.
Specification Implementation and Validation
Prepare and register implementation profiles
describing the implementation of the HL7
specification within a particular application or
vendor product line. Prepare a conformance
profile documenting the adherence of a particular
implementation to standard, template, or
localization specifications.

68
The HDF Methodology Workflow
69
Eight Work Products of the HDF Methodology

Project Charter
Requirements Specification
Reference Model
Design Model
Standard Specification
Template Specification
Implementation Profile
Conformance Specification

70
HDF Development Methodology Reference Manual Core
Chapters

Project initiation and management
Jane Curry
Requirements gathering and analysis
Charlie Mead
Requirements normalization and harmonization
Abdul-Malik Shakir
Specification design and packaging
Abdul-Malik Shakir
Specification publication and balloting
Karen VanHentenryck
Specification refinement and localization
Jenny Puyenbroek
Specification implementation and validation
Jenny Puyenbroek

71
Project Initiation

Define the project scope and objectives
Identify project assumptions and constraints
Identify major project deliverables
Identify project resource requirements
Develop project plan with timeline for project
phases, activities, and tasks
Obtain required project approvals

72
Project Charter Content

What is the name and description of the project?
Who are the stakeholders involved? What are their
roles?
Why is the project necessary? What benefit or
value will it produce?
What are the objectives of the project? What are
the expected outputs?
What will need to be done to accomplish the
objectives? What skills are needed? What tools
will be used?
Is this project dependent on the output or
decisions of other work?
What is the expected duration of the project?
What is the expected work effort? What are the
expected costs?
What are the possible risks, both technical and
organizational, in undertaking this project?
What are the assumptions or constraints that must
be accommodated?

73
Requirements Gathering and Analysis

Prepare storyboards and storyboard examples that
elaborate upon the project scope statement.
Conduct an analysis of the storyboards to
identify potential Actors, Activities, and Use
Cases.
Construct Use Case and Activity models depicting
the behavioral component of the requirements.
Identify information requirements and construct
an information model depicting the static
component of the requirements.
Prepare Collaboration and Sequence diagrams to
depict the interaction requirements.
Document relevant business rules and constraints
governing models, diagrams, and specifications.
Update the Project Charter as needed.

74
Requirements Specification Content

A dynamic description (via UML Activity Diagram)
of the healthcare business process(es) driving
the required data/information exchange
A static description (via UML Class Diagram) of
the concepts involved in the business process
(including the structure and relationships of the
data/information to be exchanged in the course of
the business process)
A glossary which carefully and completely defines
each of the concepts (and concept attributes)
depicted in the static diagram
A Use Case model which identifies the system
involved in the actual HL7 data/information
exchange and the Conformance-based Application
Roles that govern this conformance

75
Requirements Normalization and Harmonization

Map models from the Requirements Specification to
Reference Models.
Revise models in the Requirements Specification
based upon discoveries made during the mapping
process.
Document proposed changes to Reference Models to
accommodate previously unidentified
requirements.
Follow the reference model harmonization process
to adjudicate the proposed changes to Reference
Models.
Revise the Requirements Specification as needed
and its mapping to the Reference Models.

76
Requirements Normalization and Harmonization

Requirements Normalization
A cross-reference between static requirements and
HL7 reference models
An updated requirements specification document
A collection of proposed enhancements to the HL7
reference models.
Requirements Harmonization
Adjudicated Reference Information Model change
proposals
An updated Reference Information Model
A re-expression of the static requirements using
terms and structures from the updated Reference
Information Model.

77
Specification Design and Packaging

The Requirements Specification is used to drive
the transformation of Reference Models into
Design Models.
The HDF UML Profile provides constraints to aid
in ensuring that design models are well-formed
and depict the requirements in a way that remains
consistent and traceable back to harmonized
reference models.
The contents of design models are organized into
interdependent packages that partition the design
space by domain, sub-domain, and target standard
type (message, document, component).
Common or reusable design artifacts are packaged
in a way that makes them assessable across design
models and design model packages.

78
Specification Design and Packaging

Specification Design
Information Structure Design
Behavioral Features Design
Business Rules Design
Specification Packaging
Packaging Reusable Specifications
Packaging According to Specification Type
Packaging Normative And Informative Specifications

79
Specification Publication and Balloting

Design model content from multiple committees are
merged and re-packaged in preparation for
publishing.
Conflicts and inconsistencies among design models
are resolved, including the resolution of
artifact identifiers and inter-model references.
A publication package is assembled for each
specification to be balloted and a committee
level ballot is conducted.
Multiple committee level ballots may be required
to resolve negative comments received during
balloting.
A full membership ballot is conducted and upon
successful completion the design specification
becomes an HL7 standard.
At the discretion of the HL7 Board selected HL7
balloted standards are submitted for publication
as national or international standards (i.e.,
ANSI or ISO).

80
Committee and Member Level Ballot

Committee Level Ballot
Announcing your committees plans to ballot
Submitting your committee ballot content
Monitoring the ballot responses
Resolving negative votes submitted against your
TC/SIG content
Advising the submitters of negative
votes/comments of the disposition of their
vote/comment
Member Level Ballot
Obtain the TSC Chairs authorization to submit
your content for membership ballot
Announcing your committees plans for a
membership ballot
Monitoring the ballot responses
Building membership consensus on the disposition
of the negative votes/comments
Advising the submitters of negative
votes/comments of the disposition of their
vote/comment
Appealing the disposition of their votes/comments

81
Specification Refinement and Localization

Specification refinement involves the application
of additional restrictions to balloted
specifications to constrain the standard for use
in a particular context.
Specification localization is a privilege
available only to HL7 international affiliates.
It includes specification refinement and
RIM-based extensions to the content of balloted
HL7 standards.

82
Specification Refinement and Localization

The balloted HL7 Standard is designed to serve
the needs of a large and diverse population of
users. It is sometimes necessary to defined
additional refinements and constraints to the
standard to facilitate its use in a particular
context.
Context for used of a standard might be
influenced by uniqueness in the jurisdiction,
region, or clinical discipline for which the
standard is to be applied.
Because of the international nature of the HL7
standard the need for regional or local
refinements is anticipated and the process for
localization of the standard is formalized in the
HDF.
Refinements are applied to the standard
specification much in the same way as the
iterative refinement that occurred during design.
Each refinement may further constrain
multiplicities and optionality specified in the
standard and may include allowed datatype or
vocabulary domain substitutions.
The resulting refined/localized standard is a
template specification. The template may be
registered with HL7 where others in the community
defined by the context of the template may access
it for use as an extension to the standard
specification.

83
Specification Implementation and Validation

Standard specifications, templates, and
localizations are input to the specification
implementation and validation phase.
New and/or revised template specifications are
output from the implementation and validation
phase.
Implementation profiles and conformance
specifications are the primary outputs of the
specification and validation phase.

84
Specification Implementation and Validation

Implementation of the standard involves mapping
the information component of the standard to data
structures in a particular application and
incorporating the behavior aspects of the
standard into the behavior of the application.
The standard specification or localization along
with template specifications are used by
implementers to develop an implementation profile
that describes the design of a particular
implementation.
The implementation profile includes documentation
of the use of extension mechanisms built into the
standard, the resolution of choice and optional
structures, and a statement of the adherence of
the application to sender and receiver
responsibilities defined in the standard or
template.
An Implementation Profile may be used to
represent the capabilities of a particular
developers application or it may be used to
represent the implementation specific
requirements of a potential consumer of a vendor
product.
A conformance specification documents the
implementation profile in a format that can be
validated against the standard. The conformance
specification once validated would highlight
those portions of the Implementation Profile that
are non-conformant with HL7 standard
specifications and localizations.

85
The HDF Methodology Overview
86
HDF Methodology Tasks and Timeline

01/06/03 03/07/03 Complete preliminary version
of core chapters
03/10/03 04/04/03 Review preliminary version
of core chapters
03/31/03 06/20/03 Finalize core chapters
05/26/03 06/20/03 Prepare ancillary chapters
06/16/03 07/25/03 Prepare HDF master document
07/28/03 11/28/03 Review and finalize the HDF
methodology reference manual
12/01/03 12/26/03 Publish release 1 of the HDF
development methodology reference manual

HDFPilot Projects

88
Pilot Projects

The objectives of HDF pilot projects are to
Aid in process definition and the discovery of
best practices
Validate assumptions concerning the development
processes
Demonstrate the development methodology processes
Exemplify deliverables of the methodology
Roster of project pilots
NICTIZ Perinatology Project Irma Jongeneel
X12N-TG3-WG2 Kathleen Connors
IDPH Trauma Registry Export Abdul-Malik Shakir
Pilot Project Activities
01/06/03 03/28/03 Identify projects to use as
pilots
03/31/03 08/01/03 Apply the HDF process to
the pilot projects
05/05/03 09/05/03 Document pilot outcomes and
process feedback

HDFDevelopers Guide

90
Developers Guide

The HDF Developers Guide is one of many
anticipated companion documents of the HDF
Development Methodology Reference Manual
Content of the HDF Developers Guide
Initiation thru Design Charlie Mead
Design thru Implementation Jennifer Puyenbroek
Tools and Techniques Woody Beeler
HDF Developers Guide Activities
06/23/03 10/24/03 Prepare the HDF Developers
Guide
10/27/03 12/05/03 Publish the HDF Developers
Guide