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Summary
Description of the profile
Information visualization.
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- Provide an integrated system of tools and one place to find everything out about a UML model/system (not different repositories: GME, CDE browser, UML model browser)
- Provide an integrated, web-based environment for model/service registration and browsing.
- Provide a Content Driven, clinician friendly browser that does not require extensive KR training, or for them to know meta-model structure or schema. This browser will envision an alphabetical, or category driven structure that surfaces the content for them, and allows them to view/browser content more easily.
- Provide an interface (e.g., wizard tool) so that a scientist that knows nothing of metadata, modeling, or the grid can register a new "thing" (data element or analytical service)
- Show UML model graphics
- Provide an EASY traversal from UML<>Ontology<>Metadata<>XSD<>API, depending on one's point of view and expertise.
- Provide a forms building tool that will express the structure of a form as well as the model elements to which form items are bound in order to describe the form definition (including the persistence model, behavior and structure) so that the definition could be consumed by any form rendering platform and effectively collect standard data.
- Provide means to reuse metadata content more easily, including XSD, forms, OC, DEC, VD, UML Classes, UML Models, etc. Need to have tooling to navigate and follow relationships to related metadata.
- Explore building a tool that "understands" the domain of an ontology engineer by asking Questions and seeking Answers, and in turn, assisting the ontology engineer in modeling her ontology
- Programmatic Access to LexEVS API
- Create interfaces with a low barrier of entry for end users
- Support Reusable Modules / Sections of Forms
- Create tools to facilitate authoring of information models
- Provide usable authoring, discovery, and management tools.
- Generate standards-based data collection forms
- Design Development Support
- Provide tools to support the building of data collection forms.
This Functional Profile includes, but is not limited to, the following capability elaborations:
- integratedDevelopmentEnvironment
- clinicianFriendlyBrowser
- scientistFriendlyRegistration
- umlDiagramModel
- modelNavigator
- ontologyEngineeringTool
- informationModeling
- developerFriendlyModelBrowser
Derived From Requirements
- Gap Analysis::Interface::001 - Unified Tool Set Provide an integrated system of tools and one place to find everything out about a UML model/system (not different repositories: GME, data element browser, UML model browser)
- Gap Analysis::Interface::021 - Clinician Friendely Browser Provide a Content Driven, clinician friendly browser that does not require extensive KR training, or for them to know meta-model structure or schema. This browser envisioned uses alphabetical, or category driven structure that surfaces the content for them, and allows them to view/browser content more easily.
- Gap Analysis::Interface::023 - Scientist Friendly Registration Provide an interface (e.g., wizard tool) so that a scientist that knows nothing of metadata, modeling, or the grid can register a new "thing" (data element or analytical service)
- Gap Analysis::Interface::027 - Show UML model graphics Show UML model graphics
- Gap Analysis::Interface::032 - Metadata Navigation and Reuse Provide means to reuse metadata content more easily, including XSD, forms, OC, DEC, VD, UML Classes, UML Models, etc. Need to have tooling to navigate and follow relationships to related metadata.
- Gap Analysis::Interface::106 - Ontology Modeling Explore building a tool that "understands" the domain of an ontology engineer by asking Questions and seeking Answers, and in turn, assisting the ontology engineer in modeling her ontology
- *Gap Analysis::Interface::135.1 - Create interfaces with a low barrier of entry for end users * Create interfaces with a low barrier of entry for end users
- Gap Analysis::Interface::156 - Information Model Authoring Create tools to facilitate authoring of information models
- Gap Analysis::Discover::160.2 - Model Search Provide a browser that will allow Information Specialist (developer) searching (discovering) and retrieval of corresponding model representations from single or multiple repositories.
- Semantic Infrastructure Requirements::Artifact Management::Artifact Lifecycle Management Artifact lifecycle management and metadata requirements include the ability to: * Manage lifecycle, governance and versioning of the models, content and forms * Establish relationships and dependencies between models, content and forms * Determine provenance, jurisdiction, authority and intellectual property * Create represention and views of the information, realized through the appropriate transforms * Provide access control and other security constraints * Create annotations for better discovery and searching of artifacts * Develop usage scenarios and context for the information * Provide terminology and value set binding The artifacts are bound to the services via the service metadata. The service metadata combined with the artifacts and supporting metadata provide a comprehensive service specification. The artifact management requirements listed above are derived from the following use cases: * caEHR: The caEHR project has adopted ECCF for specifications and CDA documents for interoperability. The caEHR project requirements include the need for an infrastructure for managing all the artifacts generated during specification process, including HL7 models and documents. The caEHR project also intends to publish these artifacts for the community and vendors. The infrastructure needs to support better discovery, making all the relevant information available in the right context. * ONC and other external EHR adopters: ONC has adopted CCD and CCR for meaningful use. All national EHR implementations are expected to support forms and the semantics of these forms play a critical role in interoperability. The semantic infrastructure must provide a mechanism to create, store and manage these forms. * Clinical Trials: Clinical trials use forms to capture clinical information, and the semantics captured by these forms are critical for interoperability and reporting. The semantic infrastructure must provide a mechanism to manage the lifecycle of these forms.
- Gap Analysis::caDSR::caDSR-4 - Provide usable authoring, discovery, and management tools The caDSR suite of tools are very difficult to use, this inhibits publishing and utilization of metadata by the community (caDSR-2). Tooling must allow novice users to effectively define, share, and find metadata definitions. These tools must also provide advanced functionality to experienced (power) users. The caDSR/Clinical Trial tools should be directly usable by the end user (e.g., cancer researcher) and not limited to metadata specialists. caDSR users generally do not start with a formal information model or use specific subject matter models. They want to see tailored views of their local data elements and the caDSR data elements they are mapping to. Functions such as grouping, matching, section grouping, and high-lighting are desired. The tailorable views should indicate where the caDSR users are in this mapping process. Currently, caDSR does not capture much, if any, associated metadata. The ability to document associations and make them caDSR model elements is a requirement. In addition, those portions of caDSR 11179 Ed 2 or 11179 Ed 3 that are not to be supported by the proposed HL7 RIM-based technical approach should be identified *Source * * Interview 5/24/2010 Dianne Reeves
- Gap Analysis::caEHR::caEHR 4 - Design,Development Support The vision of caEHR and its reference implementation is one of these services based platform where the reference implementation consists of a flexible user interface development environment that obtains its UI objects from a service based on the presence of those artifacts in some model repository. This gives the flexibility for the reference implementation to change its behavior based on a service in the available models from a repository and divorces the knowledge that is rapidly changing and healthcare from the infrastructure which utilizes that knowledge. As such, the KR would be expected to provide references to those objects that make up specific UI interface elements such as a demographic object or laboratory object and to be able to bind the terminology references to these objects in order to supply the palette of objects to build a specific UI. The KR should collate these objects into specific packages that reflect disease specific or screen specific elements. There will also be a need to house the registry information that identifies specific instances of caEHR and its particular profile of objects used from the metadata repository. Since some elements for the caEHR implementations will be drawn from sources outside of NCI, it will not be possible to completely version an instance of a reference implementation. It will however be possible to version a set of objects pulled from the KR. The purpose of the KR in this particular instance is to provide consistent representations across the range of caEHR that get implemented and to promote reusability across these instances. Source * Cecil Lynch
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Provide an integrated system of tools and one place to find everything out about a UML model/system (not different repositories: GME, data element browser, UML model browser)
Design Development Support
Provide usable authoring, discovery, and management tools.
...
Provide a Content Driven, clinician friendly browser that does not require extensive KR training, or for them to know meta-model structure or schema. This browser envisioned uses alphabetical, or category driven structure that surfaces the content for them, and allows them to view/browser content more easily.
Create interfaces with a low barrier of entry for end users
...
- An artifact is a managed resource within the Semantic Infrastructure.
An artifact is associated with the following capabilities:
- descriptions to enable the artifact to be visible, where the description includes a unique identifier for the artifact and a sufficient, and preferably a machine processible, representation of the meaning of terms used to describe the artifact, its functions, and its effects;
- one or more discovery mechanisms that enable searching for artifacts that best meet the search criteria specified by the service participant; where the discovery mechanism will have access to the individual artifact descriptions, possibly through some repository mechanism;
- accessible storage of artifacts and artifact descriptions, so service participants can access, examine, and use the artifacts as defined.
A well-defined service Behavior Model.
The capabilities of the Behavior Model include:
- characterizes the knowledge of the actions invokes against the service and events that report real world effects as a result of those actions;
- characterizes the temporal relationships and temporal properties of actions and events associated in a service interaction;
- describe activities involved in a workflow activity that represents a unit of work;
- describes the role(s) that a role player performs in a service-oriented business process or service-oriented business collaboration;
- is both human readable and machine processable;
- is referenceable from the Service Description artifact.
Artifact descriptions change over time and their contents will reflect changing needs and context.
Architectural implications of change on the Semantic Infrastructure are reflected in the following capabilities:
- mechanisms to support the storage, referencing, and access to normative definitions of one or more versioning schemes that may be applied to identify different aggregations of descriptive information, where the different schemes may be versions of a versioning scheme itself;
- configuration management mechanisms to capture the contents of the each aggregation and apply a unique identifier in a manner consistent with an identified versioning scheme;
- one or more mechanisms to support the storage, referencing, and access to conversion relationships between versioning schemes, and the mechanisms to carry out such conversions.
A well-defined service Information Model.
The capabilities of the Information Model include:
- describes the syntax and semantics of the messages used to denote actions and events;
- describes the syntax and semantics of the data payload(s) contained within messages;
- documents exception conditions in the event of faults due to network outages, improper message/data formats, etc.;
- is both human readable and machine processable
- is referenceable from the Service Description artifact.
Artifact Descriptions make use of defined semantics, where the semantics may be used for categorization or providing other property and value information for description classes.
Architectural implications of semantics on the Semantic Infrastructure are reflected in the following capabilities:
- semantic models that provide normative descriptions of the utilized terms, where the models may range from a simple dictionary of terms to an ontology showing complex relationships and capable of supporting enhanced reasoning. This is a refinement of the Artifact metadata capability.
- mechanisms to support the storage, referencing, and access to these semantic models. This is a refinement of the Artifact store capability.
- configuration management mechanisms to capture the normative description of each semantic model and to apply a unique identifier in a manner consistent with an identified versioning scheme. This is a refinement of the Change configurationManagement capability.
- one or more mechanisms to support the storage, referencing, and access to conversion relationships between semantic models, and the mechanisms to carry out such conversions.
Capabilities
- action
- clinicianFriendlyBrowser
- configurationManagement
- developerFriendlyModelBrowser
- diagramModelBinding
- discovery
- exception
- identity
- informationModeling
- integratedDevelopmentEnvironment
- message
- metadata
- modelNavigator
- ontologyEngineeringTool
- participant
- payload
- provenance
- scientistFriendlyRegistration
- semanticConversion
- serviceBinding
- store
- temporal
- transition
- umlDiagramModel
- versioning
- workflow
Requirements traceability
Requirement | Source | Capability | ||||||
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Provide an integrated system of tools and one place to find everything out about a UML model/system (not different repositories: GME, data element browser, UML model browser) | Gap Analysis::Interface::
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Provide a Content Driven, clinician friendly browser that does not require extensive KR training, or for them to know meta-model structure or schema. This browser envisioned uses alphabetical, or category driven structure that surfaces the content for them, and allows them to view/browser content more easily. | Gap Analysis::Interface::
| |||||||
Provide an interface (e.g., wizard tool) so that a scientist that knows nothing of metadata, modeling, or the grid can register a new "thing" (data element or analytical service) | Gap Analysis::Interface::
| |||||||
Show UML model graphics | Gap Analysis::Interface::
| |||||||
Provide means to reuse metadata content more easily, including XSD, forms, OC, DEC, VD, UML Classes, UML Models, etc. Need to have tooling to navigate and follow relationships to related metadata. | Gap Analysis::Interface::
| |||||||
Explore building a tool that "understands" the domain of an ontology engineer by asking Questions and seeking Answers, and in turn, assisting the ontology engineer in modeling her ontology | Gap Analysis::Interface::
| |||||||
Create interfaces with a low barrier of entry for end users | Gap Analysis::Interface::
| |||||||
Create tools to facilitate authoring of information models | Gap Analysis::Interface::
| |||||||
Provide a browser that will allow Information Specialist (developer) searching (discovering) and retrieval of corresponding model representations from single or multiple repositories. | Gap Analysis::Discover::
| |||||||
Artifact lifecycle management and metadata requirements include the ability to: * Manage lifecycle, governance and versioning of the models, content and forms * Establish relationships and dependencies between models, content and forms * Determine provenance, jurisdiction, authority and intellectual property * Create represention and views of the information, realized through the appropriate transforms * Provide access control and other security constraints * Create annotations for better discovery and searching of artifacts * Develop usage scenarios and context for the information * Provide terminology and value set binding The artifacts are bound to the services via the service metadata. The service metadata combined with the artifacts and supporting metadata provide a comprehensive service specification. The artifact management requirements listed above are derived from the following use cases: * caEHR: The caEHR project has adopted ECCF for specifications and CDA documents for interoperability. The caEHR project requirements include the need for an infrastructure for managing all the artifacts generated during specification process, including HL7 models and documents. The caEHR project also intends to publish these artifacts for the community and vendors. The infrastructure needs to support better discovery, making all the relevant information available in the right context. * ONC and other external EHR adopters: ONC has adopted CCD and CCR for meaningful use. All national EHR implementations are expected to support forms and the semantics of these forms play a critical role in interoperability. The semantic infrastructure must provide a mechanism to create, store and manage these forms. * Clinical Trials: Clinical trials use forms to capture clinical information, and the semantics captured by these forms are critical for interoperability and reporting. The semantic infrastructure must provide a mechanism to manage the lifecycle of these forms. | Semantic Infrastructure Requirements::Artifact Management::
| integratedDevelopmentEnvironment, clinicianFriendlyBrowser, scientistFriendlyRegistration, umlDiagramModel, modelNavigator, ontologyEngineeringTool, informationModeling, | ||||||
The caDSR suite of tools are very difficult to use, this inhibits publishing and utilization of metadata by the community (caDSR-2). Tooling must allow novice users to effectively define, share, and find metadata definitions. These tools must also provide advanced functionality to experienced (power) users. The caDSR/Clinical Trial tools should be directly usable by the end user (e.g., cancer researcher) and not limited to metadata specialists. caDSR users generally do not start with a formal information model or use specific subject matter models. They want to see tailored views of their local data elements and the caDSR data elements they are mapping to. Functions such as grouping, matching, section grouping, and high-lighting are desired. The tailorable views should indicate where the caDSR users are in this mapping process. Currently, caDSR does not capture much, if any, associated metadata. The ability to document associations and make them caDSR model elements is a requirement. In addition, those portions of caDSR 11179 Ed 2 or 11179 Ed 3 that are not to be supported by the proposed HL7 RIM-based technical approach should be identified *Source * * Interview 5/24/2010 Dianne Reeves | Gap Analysis::caDSR::
| |||||||
The vision of caEHR and its reference implementation is one of these services based platform where the reference implementation consists of a flexible user interface development environment that obtains its UI objects from a service based on the presence of those artifacts in some model repository. This gives the flexibility for the reference implementation to change its behavior based on a service in the available models from a repository and divorces the knowledge that is rapidly changing and healthcare from the infrastructure which utilizes that knowledge. As such, the KR would be expected to provide references to those objects that make up specific UI interface elements such as a demographic object or laboratory object and to be able to bind the terminology references to these objects in order to supply the palette of objects to build a specific UI. The KR should collate these objects into specific packages that reflect disease specific or screen specific elements. There will also be a need to house the registry information that identifies specific instances of caEHR and its particular profile of objects used from the metadata repository. Since some elements for the caEHR implementations will be drawn from sources outside of NCI, it will not be possible to completely version an instance of a reference implementation. It will however be possible to version a set of objects pulled from the KR. The purpose of the KR in this particular instance is to provide consistent representations across the range of caEHR that get implemented and to promote reusability across these instances. Source * Cecil Lynch | Gap Analysis::caEHR::
| |||||||
| Semantic Profile::OASIS SOA::
| discovery from inherited abstract profile Artifact, identity from inherited abstract profile Artifact, metadata from inherited abstract profile Artifact, store from inherited abstract profile Artifact, | ||||||
| Semantic Profile::OASIS SOA::
| message from inherited abstract profile Information Model, payload from inherited abstract profile Information Model, exception from inherited abstract profile Information Model, serviceBinding from inherited abstract profile Information Model, diagramModelBinding from inherited abstract profile Information Model, diagramModelBinding from inherited abstract profile Behavior Model, serviceBinding from inherited abstract profile Behavior Model, action from inherited abstract profile Behavior Model, temporal from inherited abstract profile Behavior Model, workflow from inherited abstract profile Behavior Model, participant from inherited abstract profile Behavior Model, | ||||||
| Semantic Profile::OASIS SOA::
| versioning from inherited abstract profile Change, configurationManagement from inherited abstract profile Change, transition from inherited abstract profile Change, discovery from inherited abstract profile Artifact, identity from inherited abstract profile Artifact, metadata from inherited abstract profile Artifact, store from inherited abstract profile Artifact, semanticConversion from inherited abstract profile Semantic Model, |
Anchor | ||||
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Description
characterizes the knowledge of the actions invokes against the service and events that report real world effects as a result of those actions;
Requirements addressed
Overview of possible operations
Anchor | ||||
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|
Description
Provide a Content Driven, clinician friendly browser that does not require extensive KR training, or for them to know meta-model structure or schema. This browser envisioned uses alphabetical, or category driven structure that surfaces the content for them, and allows them to view/browser content more easily.
Create interfaces with a low barrier of entry for end users
Requirements addressed
- Artifact Lifecycle Management
- 021 - Clinician Friendely Browser
- 135.1 - Create interfaces with a low barrier of entry for end users
Overview of possible operations
Anchor | ||||
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|
Description
Mechanisms to support the storage, referencing, and access to normative definitions of one or more versioning schemes that may be applied to identify different aggregations of descriptive information, where the different schemes may be versions of a versioning scheme itself.
Requirements addressed
Overview of possible operations
Anchor | ||||
---|---|---|---|---|
|
Description
Provide a browser that will allow Information Specialist (developer) searching (discovering) and retrieval of corresponding model representations from single or multiple repositories.
Requirements addressed
Overview of possible operations
Anchor | ||||
---|---|---|---|---|
|
Description
Is both human readable and machine processable.
Requirements addressed
Overview of possible operations
Anchor | ||||
---|---|---|---|---|
|
Description
One or more discovery mechanisms that enable searching for artifacts that best meet the search criteria specified by the service participant; where the discovery mechanism will have access to the individual artifact descriptions, possibly through some repository mechanism.
Requirements addressed
Overview of possible operations
Anchor | ||||
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|
Description
Documents exception conditions in the event of faults due to network outages, improper message/data formats, etc.
Requirements addressed
Overview of possible operations
Anchor | ||||
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|
Description
Descriptions which include a unique identifier for the artifact.
Requirements addressed
Overview of possible operations
Anchor | ||||
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|
Description
Create tools to facilitate authoring of information models
Requirements addressed
Overview of possible operations
Anchor | ||||
---|---|---|---|---|
|
Description
Provide an integrated system of tools and one place to find everything out about a UML model/system (not different repositories: GME, data element browser, UML model browser)
Design Development Support
Provide usable authoring, discovery, and management tools.
Requirements addressed
- caDSR-4 - Provide usable authoring, discovery, and management tools
- Artifact Lifecycle Management
- 001 - Unified Tool Set
- caEHR 4 - Design,Development Support
Overview of possible operations
Anchor | ||||
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|
Description
Describes the syntax and semantics of the messages used to denote actions and events
Requirements addressed
Overview of possible operations
Anchor | ||||
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|
Description
A representation of the meaning of terms used to describe the artifact, its functions, and its effects.
Requirements addressed
Overview of possible operations
Anchor | ||||
---|---|---|---|---|
|
Description
Provide means to reuse metadata content more easily, including XSD, forms, OC, DEC, VD, UML Classes, UML Models, etc. Need to have tooling to navigate and follow relationships to related metadata.
Requirements addressed
Overview of possible operations
Anchor | ||||
---|---|---|---|---|
|
Description
Explore building a tool that "understands" the domain of an ontology engineer by asking Questions and seeking Answers, and in turn, assisting the ontology engineer in modeling her ontology
Requirements addressed
Overview of possible operations
Anchor | ||||
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|
Description
describes the role(s) that a role player performs in a service-oriented business process or service-oriented business collaboration;
Requirements addressed
Overview of possible operations
Anchor | ||||
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|
Description
Describes the syntax and semantics of the data payload(s) contained within messages
Requirements addressed
Overview of possible operations
Anchor | ||||
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|
Description
While the Resource identity provides the means to know which subject and subject description are being considered, Provenance as related to the Description class provides information that reflects on the quality or usability of the subject. Provenance specifically identifies the entity (human, defined role, organization, ...) that assumes responsibility for the resource being described and tracks historic information that establishes a context for understanding what the resource provides and how it has changed over time. Responsibilities may be directly assumed by the Stakeholder who owns a Resource or the Owner may designate Responsible Parties for the various aspects of maintaining the resource and provisioning it for use by others. There may be more than one entity identified under Responsible Parties; for example, one entity may be responsible for code maintenance while another is responsible for provisioning of the executable code. The historical aspects may also have multiple entries, such as when and how data was collected and when and how it was subsequently processed, and as with other elements of description, may provide links to other assets maintained by the Resource owner.
Requirements addressed
Overview of possible operations
Anchor | ||||
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|
Description
Provide an interface (e.g., wizard tool) so that a scientist that knows nothing of metadata, modeling, or the grid can register a new "thing" (data element or analytical service)
Requirements addressed
Overview of possible operations
Anchor | ||||
---|---|---|---|---|
|
Description
One or more mechanisms to support the storage, referencing, and access to conversion relationships between semantic models, and the mechanisms to carry out such conversions.
Requirements addressed
Overview of possible operations
Anchor | ||||
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|
Description
Is referenceable from the Service Description artifact.
Requirements addressed
Overview of possible operations
Anchor | ||||
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|
Description
Accessible storage of artifacts and artifact descriptions, so service participants can access, examine, and use the artifacts as defined.
Requirements addressed
Overview of possible operations
Anchor | ||||
---|---|---|---|---|
|
Description
characterizes the temporal relationships and temporal properties of actions and events associated in a service interaction;
Requirements addressed
Overview of possible operations
Anchor | ||||
---|---|---|---|---|
|
Description
One or more mechanisms to support the storage, referencing, and access to conversion relationships between versioning schemes, and the mechanisms to carry out such conversions.
Requirements addressed
Overview of possible operations
Anchor | ||||
---|---|---|---|---|
|
Show UML model graphics
...
Provide means to reuse metadata content more easily, including XSD, forms, OC, DEC, VD, UML Classes, UML Models, etc. Need to have tooling to navigate and follow relationships to related metadata.
...
Explore building a tool that "understands" the domain of an ontology engineer by asking Questions and seeking Answers, and in turn, assisting the ontology engineer in modeling her ontology
...
Create tools to facilitate authoring of information models
...
Description
Show UML model graphics
Requirements addressed
Overview of possible operations
Anchor | ||||
---|---|---|---|---|
|
Description
Configuration management mechanisms to capture the contents of the each aggregation and apply a unique identifier in a manner consistent with an identified versioning scheme.
Requirements addressed
Overview of possible operations
Anchor | ||||
---|---|---|---|---|
|
Description
describe activities involved in a workflow activity that represents a unit of work;
Requirements addressed
Overview of possible operations
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