1、NOTICETHIS DOCUMENT IS AN UNAPPROVED IEEE STANDARDSDRAFT, SUBJECT TO CHANGE. THE IEEE SHALL NOT BELIABLE FOR ANY DAMAGES RESULTING FROM YOUR USEOF THIS UNAPPROVED IEEE STANDARDS DRAFT.The IEEE makes no guaranties or warranties as to the results to be obtainedfrom purchasing and using this unapproved
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4、tml.Copyright The Institute of Electrical and Electronics Engineers, Inc. Provided by IHS under license with IEEENot for ResaleNo reproduction or networking permitted without license from IHS-,-,-IEEE P1073.1.3.8 / D4.0Draft Standard forMedical Device Communications -Medical Device Data Language (MD
5、DL)Virtual Medical Device, Specialized TemperaturePrepared byVital Signs Monitoring Working Group of the IEEE 1073 CommitteeSponsor:Engineering in Medicine and Biology Society (EMBS)Abstract: This standard establishes a model for the implementation of the Temperature VirtualMedical Device. It establ
6、ishes a Design Model and specifies how this Model should beimplemented. It also provides guidance concerning bandwidth requirements as well as how tospecify conformance with this standard.Keywords: bedside, VMD, Channel, medical device, medical device communications, MIB,patient, TemperatureNOTE: Th
7、is draft is for review only and should not be distributed without permission of theeditor.Copyright 1999 by the Institute of Electrical and Electronics Engineers, Inc.345 East 47th StreetNew York, NY 10017, USAAll Rights Reserved.This is an unapproved draft of a proposed IEEE Standard, subject to ch
8、ange. Permission is hereby granted for IEEEStandards Committee participants to reproduce this document for purposes of IEEE standardization activities. If thisdocument is to be submitted to ISO or IEC, notification shall be given to the IEEE Copyright Administrator.Permission is also granted for mem
9、ber bodies and technical committees of ISO and IEC to reproduce this documentfor purposes of developing a national position. Other entities seeking permission to reproduce portions of thisdocument for these or other uses must contact the IEEE Standards Department for the appropriate license. Use ofi
10、nformation contained in this unapproved draft is at your own risk.IEEE Standards DepartmentCopyright and Permissions445 Hoes Lane, P.O. Box 1331Piscataway, NJ 08855-1331, USACopyright The Institute of Electrical and Electronics Engineers, Inc. Provided by IHS under license with IEEENot for ResaleNo
11、reproduction or networking permitted without license from IHS-,-,-UNAPPROVED DRAFT PUBLISHED FOR COMMENT ONLYDraft 4 - P1073.1.3.8 Medical Device Communications, TemperatureCopyright 1999 IEEE. All Rights Reserved.This is an unapproved IEEE Standards Draft, subject to change.2IntroductionThis is a d
12、raft copy of the IEEE 1073 Temperature VMD Standard. The information and datapresented here is intended to provide a foundation on which the final document can be built.The subcommittee currently working on the development of this standard consists of:Ken Fuchs, ChairDan Nowicki GE Marquette Medical
13、 SystemsJan Wittenber AgilentWard Silver Medtronic Physio-ControlKen Fuchs Siemens Medical SystemsDennis Harding SpacelabsKen Hall SpacelabsTodd Cooper RealsoftPop Tufty Protocol SystemsJohn Villaire Protocol SystemsRick Schrenker Massachusetts General HospitalSpecial thanks to Kai Hassing of Agilen
14、t, Boeblingen Germany for his input into this document.All parts of this document are subject to further discussion and may be changed significantly inthe future as the associated IEEE 1073 upper layer documents are revised, and new upper layerdocuments are generated.Review and Feedback on the conte
15、nt of this is document is solicited and should be addressed tothe Editor:Ken FuchsSiemens Medical Systems16 Electronics Ave.,Danvers, MA 01923Phone: 978/907-7686Fax: 978/774-8342Email: ken.fuchsieee.orgCopyright The Institute of Electrical and Electronics Engineers, Inc. Provided by IHS under licens
16、e with IEEENot for ResaleNo reproduction or networking permitted without license from IHS-,-,-UNAPPROVED DRAFT PUBLISHED FOR COMMENT ONLYDraft 4 - P1073.1.3.8 Medical Device Communications, TemperatureCopyright 1999 IEEE. All Rights Reserved.This is an unapproved IEEE Standards Draft, subject to cha
17、nge.3Revision HistoryRevisionNumberDate RemarksDraft 1 December 13, 1998 Initial Draft FormatDraft 2 February 1, 1999 Incorporate comments from Orlando meeting,add attribute guidelinesDraft 3 May 4, 1999 Incorporate comments from Toronto meeting,add attribute guidelinesDraft 4 June 28, 1999 Incorpor
18、ate inputs from Vital Signs Meetingheld at Siemens Danvers.Copyright The Institute of Electrical and Electronics Engineers, Inc. Provided by IHS under license with IEEENot for ResaleNo reproduction or networking permitted without license from IHS-,-,-UNAPPROVED DRAFT PUBLISHED FOR COMMENT ONLYDraft
19、4 - P1073.1.3.8 Medical Device Communications, TemperatureCopyright 1999 IEEE. All Rights Reserved.This is an unapproved IEEE Standards Draft, subject to change.4IntroductionThe primary purpose of the IEEE 1073 series of standards is to provide a consistent object modelacross the vast area of Medica
20、l Devices and Medical Systems. A major aim is to provideadequate information and guidance in order to maximize the probability of successfulinteroperability of medical devices. To achieve this it is necessary to provide a detaileddescription of the various Medical Devices along with specific object
21、and data models. Theinteroperability of these medical devices in the patient bedside environment, primarily betweenthe bedside and the patient care information systems, will play a major part in the future ofmedical informatics.A general overview of the entire IEEE 1073 series of standards can be fo
22、und in the IEEE 1073Standard for Medical Device Communications Overview and Framework document. The IEEE1073.1.3.8 standard (this document) concentrates specifically on the domain of the TemperatureVMD. The VMD represents the clinical/medical aspects of a complete medical device. Thisdocument focuse
23、s on those aspects, while other IEEE 1073.1.x standards demonstrate how toincorporate this and/or other VMDs to create compliant and complete medical devices.The structure and organization of the Temperature VMD is based on the Object Oriented Designand Modeling information contained in the Domain I
24、nformation Model section of the Vital SignsInformation Representation document developed by the associated CEN/TC 251/PT5-021committee. This Object model in turn is primarily based on the Object Oriented design andanalysis approach of Coad and Yourdon.The upper layer language discussed in this docum
25、ent is based on the IEEE P1073.1.x (MDDL)series of documentsThe communications related sections of this set of standards draw heavily on the ISO OpenSystems Interconnect Seven Layer Basic Reference Model in addition to the various MedicalInformation Bus sub-sets of these documents as described in th
26、e IEEE P1073.x series ofdocuments. Reliable data delivery, particularly in the area of patient safety related information,has been a primary concern in the development of all these standards, and every effort hasbeen made to identify potential problem areas and provide for a robust system operation.
27、Copyright The Institute of Electrical and Electronics Engineers, Inc. Provided by IHS under license with IEEENot for ResaleNo reproduction or networking permitted without license from IHS-,-,-UNAPPROVED DRAFT PUBLISHED FOR COMMENT ONLYDraft 4 - P1073.1.3.8 Medical Device Communications, TemperatureC
28、opyright 1999 IEEE. All Rights Reserved.This is an unapproved IEEE Standards Draft, subject to change.5Table of Contents1 GENERAL .81.1 SCOPE81.2 PURPOSE 81.3 APPLICABILITY.91.4 AUDIENCE .91.5 ORGANIZATION.91.6 CONVENTIONS92 NORMATIVE REFERENCES103 DEFINITIONS 114 ABBREVIATIONS115 GENERAL VMD DOMAIN
29、 INFORMATION MODEL .125.1 MEDICAL SUBJECT MODEL .125.2 APPLICATION PROFILES AND THE GENERAL VMD126 TEMPERATURE VMD DOMAIN INFORMATION MODEL 146.1 GENERAL OVERVIEW .146.2 EXTENDING THE TEMPERATURE VMD146.3 TEMPERATURE VMD DOMAIN INFORMATION MODEL 146.4 VMO ATTRIBUTES166.4.1 Type166.4.2 Label StringEr
30、ror! Bookmark not defined.6.5 VMD ATTRIBUTES.ERROR! BOOKMARK NOT DEFINED.6.5.1 VMD Status Error! Bookmark not defined.6.5.2 VMD-Model.Error! Bookmark not defined.6.5.3 Instance Number Error! Bookmark not defined.6.5.4 Product SpecificationError! Bookmark not defined.6.5.5 Compatibility ID.Error! Boo
31、kmark not defined.6.5.6 Parameter GroupError! Bookmark not defined.6.5.7 Position Error! Bookmark not defined.6.5.8 Operating Hours .Error! Bookmark not defined.6.5.9 Operating Cycles Error! Bookmark not defined.6.5.10 Measurement Princple Error! Bookmark not defined.7 TEMPERATURE CHANNEL .20Copyrig
32、ht The Institute of Electrical and Electronics Engineers, Inc. Provided by IHS under license with IEEENot for ResaleNo reproduction or networking permitted without license from IHS-,-,-UNAPPROVED DRAFT PUBLISHED FOR COMMENT ONLYDraft 4 - P1073.1.3.8 Medical Device Communications, TemperatureCopyrigh
33、t 1999 IEEE. All Rights Reserved.This is an unapproved IEEE Standards Draft, subject to change.67.1 TEMPERATURE CHANNEL ATTRIBUTES207.1.1 Channel Status.Error! Bookmark not defined.7.1.2 Measurement PrincipleError! Bookmark not defined.7.2 TEMPERATURE METRIC ATTRIBUTES.ERROR! BOOKMARK NOT DEFINED.7.
34、2.1 Metric Specification.Error! Bookmark not defined.7.2.2 Metric Status.Error! Bookmark not defined.7.2.3 Measurement Status.Error! Bookmark not defined.7.2.4 Metric IdError! Bookmark not defined.7.2.5 Metric ID Extension.Error! Bookmark not defined.7.2.6 Unit Code .Error! Bookmark not defined.7.2.
35、7 Temperature Metric remaining attributes.Error! Bookmark not defined.7.3 TEMPERATURE NUMERIC ATTRIBUTESERROR! BOOKMARK NOT DEFINED.7.3.1 Measurement Range Error! Bookmark not defined.7.4 TEMPERATURE SAMPLE ARRAY ATTRIBUTES .ERROR! BOOKMARK NOT DEFINED.7.4.1 Sample Array Specification .Error! Bookma
36、rk not defined.7.4.2 Scale and Range Specification.Error! Bookmark not defined.7.4.3 Remaining Attributes.Error! Bookmark not defined.7.4.4 Temperature Real-Time Sample Array Attributes Error! Bookmark not defined.7.4.5 Sample PeriodError! Bookmark not defined.8 DELTA TEMPERATURE CHANNEL ERROR! BOOK
37、MARK NOT DEFINED.8.1.1 Channel Status.Error! Bookmark not defined.8.1.2 Measurement PrincipleError! Bookmark not defined.8.2 DELTA TEMPERATURE METRIC ATTRIBUTES .ERROR! BOOKMARK NOT DEFINED.8.2.1 Metric Specification.Error! Bookmark not defined.8.2.2 Metric Status.Error! Bookmark not defined.8.2.3 M
38、easurement Status.Error! Bookmark not defined.8.2.4 Metric IdError! Bookmark not defined.8.2.5 Metric ID Extension.Error! Bookmark not defined.8.2.6 Unit Code .Error! Bookmark not defined.8.2.7 Delta Temperature Metric remaining attributesError! Bookmark not defined.8.3 DELTA TEMPERATURE NUMERIC ATT
39、RIBUTES ERROR! BOOKMARK NOT DEFINED.8.4 DELTA TEMPERATURE NUMERIC ATTRIBUTES ERROR! BOOKMARK NOT DEFINED.8.4.1 Measurement Range Error! Bookmark not defined.8.5 DELTA TEMPERATURE SAMPLE ARRAY ATTRIBUTESERROR! BOOKMARK NOT DEFINED.8.5.1 Sample Array Specification .Error! Bookmark not defined.8.5.2 Sc
40、ale and Range Specification.Error! Bookmark not defined.8.5.3 Delta Temperature Real-Time Sample Array Attributes .Error! Bookmark not defined.8.5.4 Sample PeriodError! Bookmark not defined.Copyright The Institute of Electrical and Electronics Engineers, Inc. Provided by IHS under license with IEEEN
41、ot for ResaleNo reproduction or networking permitted without license from IHS-,-,-UNAPPROVED DRAFT PUBLISHED FOR COMMENT ONLYDraft 4 - P1073.1.3.8 Medical Device Communications, TemperatureCopyright 1999 IEEE. All Rights Reserved.This is an unapproved IEEE Standards Draft, subject to change.79 TEMPE
42、RATURE VMD ALERT STATUS309.1 VMD ALERT STATUS ATTRIBUTES.309.1.1 Temperature VMD Physio Alert IDs 309.1.2 Temperature VMD Technical Alert IDs3010 TEMPERATURE VMD MODES OF OPERATION3310.1 TEMPERATURE VMD DEVICE MODES.3310.2 TEMPERATURE VMD DEVICE FINITE STATE MACHINE.3311 CONFORMANCE MODEL 3411.1 APP
43、LICABILITY.3411.2 CONFORMANCE SPECIFICATION.3411.3 LEVELS OF CONFORMANCE.3411.3.1 Conformance Level 1.3411.3.2 Conformance Level 2.3411.3.3 Conformance Level 3.3511.4 IMPLEMENTATION CONFORMANCE STATEMENTS.3511.4.1 General Format3511.4.2 General Implementation Conformance Statement3511.4.3 DIM MOC Im
44、plementation Conformance Statement3611.4.4 MOC Attribute Implementation Conformance Statement.3711.4.5 MOC Notification Implementation Conformance Statement.3812 DATA BANDWIDTH CONSIDERATIONS 3912.1 OVERVIEW.3912.2 TEMPERATURE SCENARIO39Copyright The Institute of Electrical and Electronics Engineers
45、, Inc. Provided by IHS under license with IEEENot for ResaleNo reproduction or networking permitted without license from IHS-,-,-UNAPPROVED DRAFT PUBLISHED FOR COMMENT ONLYDraft 4 - P1073.1.3.8 Medical Device Communications, TemperatureCopyright 1999 IEEE. All Rights Reserved.This is an unapproved I
46、EEE Standards Draft, subject to change.81 GeneralOne of the primary purposes of the IEEE 1073 series of standards is to provide a consistentobject model across the vast area of Medical Devices and Medical Systems. A major aim is toprovide adequate information and guidance in order to maximize the pr
47、obability of successfulinteroperability of medical devices. To achieve this it is necessary to provide a detaileddescription of the various Medical Devices along with specific object and data models. Theinteroperability of these medical devices in the patient bedside environment, primarily betweenth
48、e bedside and the patient care information systems, will play a major part in the future ofmedical informatics.A general overview of the entire IEEE 1073 series of standards can be found in the IEEE 1073Standard for Medical Device Communications Overview and Framework document. The IEEE1073.1.3.8 st
49、andard (this document) concentrates specifically on the domain of the TemperatureVMD. The VMD represents the clinical/medical aspects of a complete medical device. Thisdocument focuses on those aspects, while other IEEE 1073.1.x standards demonstrate how toincorporate this and/or other VMDs to create compliant and complete medical devices.The structure and organization of the Temperature VMD is based on the Object Oriented D