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| − | + | Working Terms | |
| + | |||
| + | * SIM: Semantic Information Model | ||
An artifact that defines an information model that specifies constraints on a reference model. | An artifact that defines an information model that specifies constraints on a reference model. | ||
| − | + | * HSIM: Hierarchial Semantic Information Model | |
| − | |||
An artifact that defines a hierachial information model that specifies constraints on a reference model. This is suitable to produce an information technology specification that can serialize information as a wire protocol. | An artifact that defines a hierachial information model that specifies constraints on a reference model. This is suitable to produce an information technology specification that can serialize information as a wire protocol. | ||
| − | + | * DIM (Domain Info Model) – to represent the concept space (i.e. elements of interest) for a ‘domain’ (HL7 content area) | |
| − | |||
| − | |||
* static model | * static model | ||
| Line 20: | Line 19: | ||
| − | + | * CIM (Constrained Info Model) – to define content for communications ‘over the wire’ or parent of the same (abstract) | |
* static model | * static model | ||
| Line 31: | Line 30: | ||
| − | + | * Interaction Profile - A fully bound LIM starting at the root of the interaction | |
* specific to a single Interaction | * specific to a single Interaction | ||
| Line 38: | Line 37: | ||
o receiver responsibilities for the Interaction | o receiver responsibilities for the Interaction | ||
o other local vocabulary constraints assertions | o other local vocabulary constraints assertions | ||
| − | + | ||
| − | + | * Implementation Profile - A fully constrained conformance profile. | |
NOTE: need profile ID, plus packageID (e.g. the message implimentation manul) need RIM harmonization proposal. | NOTE: need profile ID, plus packageID (e.g. the message implimentation manul) need RIM harmonization proposal. | ||
| − | + | * LIM (Localized Info Model) – allows additional constraints of models without impacting the interoperability of instances with other instances conformant to the (more generic) parent CIM | |
* static model | * static model | ||
| Line 53: | Line 52: | ||
* association names are not reflected as element names in ITSs (e.g. XML) | * association names are not reflected as element names in ITSs (e.g. XML) | ||
o the names of the CIM are transmitted | o the names of the CIM are transmitted | ||
| − | + | ||
| − | + | * LIM types | |
o Template – to assert constraints on a static model without requiring changes in element names | o Template – to assert constraints on a static model without requiring changes in element names | ||
+ can be applied to any static model and at any point within that model where the descendent tree from that node is equivalent to (or is a proper subset of) the static model on which the template is based | + can be applied to any static model and at any point within that model where the descendent tree from that node is equivalent to (or is a proper subset of) the static model on which the template is based | ||
Latest revision as of 20:36, 13 September 2006
Working Terms
- SIM: Semantic Information Model
An artifact that defines an information model that specifies constraints on a reference model.
- HSIM: Hierarchial Semantic Information Model
An artifact that defines a hierachial information model that specifies constraints on a reference model. This is suitable to produce an information technology specification that can serialize information as a wire protocol.
- DIM (Domain Info Model) – to represent the concept space (i.e. elements of interest) for a ‘domain’ (HL7 content area)
* static model * need not be serialisable * may have multiple entry points (entry point = class where serialisation begins) * must be a valid constraint of the RIM and possibly other DIMs * may include “stubs” (linkages to CMETs, other packages) * (corresponds to ‘old’ DMIM)
- CIM (Constrained Info Model) – to define content for communications ‘over the wire’ or parent of the same (abstract)
* static model * must be serialisable * must have one (and only one) entry point * must be derived from a DIM or another CIM * may include “stubs” (linkages to CMETs, other packages) * (corresponds to ‘old’ RMIM, HMD, Message Type, part of a CMET) * you must transmit the element names
- Interaction Profile - A fully bound LIM starting at the root of the interaction
* specific to a single Interaction
* contains
o 1 Profile Static Model
o receiver responsibilities for the Interaction
o other local vocabulary constraints assertions
- Implementation Profile - A fully constrained conformance profile.
NOTE: need profile ID, plus packageID (e.g. the message implimentation manul) need RIM harmonization proposal.
- LIM (Localized Info Model) – allows additional constraints of models without impacting the interoperability of instances with other instances conformant to the (more generic) parent CIM
* static model
* must be serialisable
* must have one (and only one) entry point
* must be derived from a CIM or another LIM
* may include “stubs” (linkages to CMETs, other packages) if it’s a Template
* association names are not reflected as element names in ITSs (e.g. XML)
o the names of the CIM are transmitted
- LIM types
o Template – to assert constraints on a static model without requiring changes in element names
+ can be applied to any static model and at any point within that model where the descendent tree from that node is equivalent to (or is a proper subset of) the static model on which the template is based
+ entry point need not be the same as its parent CIM
o Profile Static Model
+ a fully bound LIM starting at the root of the Interaction
+ start at Message or Batch – goes through all wrappers, CMETs, CMETs inside CMETs, etc. to define constraints
+ specific to an Interaction
+ entry point is the same as the entry point of the CIM it is based on
*
1.3.6 Stub - to reference content from any static model to a serializable static model
* defines both a minimum and maximum static model, which represent constraints on what model can be bound to the stub
o a parameter in a parameterised type (e.g. in a List)
* you don’t know what message type will be used (bound to the stub)
* where used today
o in Transmission wrapper to reference Control Act
o Control Act wrapper to reference ‘payload’definition
+ today, payloads only have CMET stubs (no other types of stubs)
o Control Act wrapper to reference a query definition
o a CMET reference is a special case of a Stub, min.=max. (you know what message type is used)
* by Interaction time, all stubs will be bound
* a CMET may reference a stub (CMETs with exit points) –exit points need to be bound by the model that references the CMET, either to a class or a stub inside the referencing model
o e.g. specimen – allows reference to patient CMETs – bind patient stub with specimen stub
* stubs = parameterised types = UML generic (but HL7 allows an optional minimum model to be asserted)
1.3.7 Entry point – class where serialization can begin
1.3.8 Conformance Profile
* Conformance Profile
o contains
+ 1-to-many Interaction Profiles
+ other conformance info (e.g. Realm, transmission technology)
o
1.3.9 Conformance Statement – textual language assertion of a fully-defined Conformance Profile
1.3.10 (NOTE: need profileId plus packageId (e.g. the message implementation manual) – need RIM harmonization proposal for new attribute)
