ASTM E2699-2011 Standard Practice for Digital Imaging and Communication in Nondestructive Evaluation (DICONDE) for Digital Radiographic (DR) Test Methods《数字射线照相(DR)试验方法用无损评估(DICOND.pdf

1、Designation: E2699 11Standard Practice forDigital Imaging and Communication in NondestructiveEvaluation (DICONDE) for Digital Radiographic (DR) TestMethods1This standard is issued under the fixed designation E2699; the number immediately following the designation indicates the year oforiginal adopti

2、on or, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. Asuperscript epsilon () indicates an editorial change since the last revision or reapproval.1. Scope*1.1 This practice facilitates the interoperability of digitalX-ray imaging eq

3、uipment by specifying image data transferand archival methods in commonly accepted terms. Thisdocument is intended to be used in conjunction with PracticeE2339 on Digital Imaging and Communication in Nondestruc-tive Evaluation (DICONDE). Practice E2339 defines an indus-trial adaptation of the NEMA S

4、tandards Publication titledDigital Imaging and Communications in Medicine (DICOM,see http:/medical.nema.org), an international standard forimage data acquisition, review, storage and archival storage.The goal of Practice E2339, commonly referred to as DI-CONDE, is to provide a standard that facilita

5、tes the display andanalysis of NDE results on any system conforming to theDICONDE standard. Toward that end, Practice E2339 providesa data dictionary and a set of information modules that areapplicable to all NDE modalities. This practice supplementsPractice E2339 by providing information object def

6、initions,information modules and a data dictionary that are specific todigital X-ray test methods.1.2 This practice has been developed to overcome the issuesthat arise when analyzing or archiving data from digital X-raytest equipment using proprietary data transfer and storagemethods. As digital tec

7、hnologies evolve, data must remaindecipherable through the use of open, industry-wide methodsfor data transfer and archival storage. This practice defines amethod where all the digital X-ray technique parameters andtest results are communicated and stored in a standard mannerregardless of changes in

8、 digital technology.1.3 This practice does not specify:1.3.1 A testing or validation procedure to assess an imple-mentations conformance to the standard.1.3.2 The implementation details of any features of thestandard on a device claiming conformance.1.3.3 The overall set of features and functions to

9、 be ex-pected from a system implemented by integrating a group ofdevices each claiming DICONDE conformance.1.4 Although this practice contains no values that requireunits, it does describe methods to store and communicate datathat do require units to be properly interpreted. The SI unitsrequired by

10、this practice are to be regarded as standard. Noother units of measurement are included in this standard.1.5 This standard does not purport to address all of thesafety concerns, if any, associated with its use. It is theresponsibility of the user of this standard to establish appro-priate safety and

11、 health practices and determine the applica-bility of regulatory limitations prior to use.2. Referenced Documents2.1 ASTM Standards:2E1316 Terminology for Nondestructive ExaminationsE1475 Guide for Data Fields for Computerized Transfer ofDigital Radiological Examination DataE2339 Practice for Digita

12、l Imaging and Communication inNondestructive Evaluation (DICONDE)E2597 Practice for Manufacturing Characterization of Digi-tal Detector Arrays2.2 Other Standard:3DICOM National Electrical Manufacturers AssociationStandard for Digital Imaging and Communications inMedicine (DICOM), 20113. Terminology3

13、.1 Definitions:3.1.1 Nondestructive evaluation terms used in this practicecan be found in Standard Terminology for NondestructiveExaminations, E1316.3.1.2 DICONDE terms used in this practice are defined inPractice E2339.1This practice is under the jurisdiction of ASTM Committee E07 on Nonde-structiv

14、e Testing and is the direct responsibility of Subcommittee E07.11 on DigitalImaging and Communication in Nondestructive Evaluation (DICONDE).Current edition approved Dec. 1, 2011. Published January 2012. Originallyapproved in 2010. Last previous edition approved in 2010 as E2699 - 10.DOI:10.1520/E26

15、99-11.2For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer Service at serviceastm.org. For Annual Book of ASTMStandards volume information, refer to the standards Document Summary page onthe ASTM website.3Available from National Electrical Manufacturers Assoc

16、iation (NEMA), 1300N. 17th St., Suite 1752, Rosslyn, VA 22209, http:/www.nema.org.1*A Summary of Changes section appears at the end of this standard.Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.3.1.3 Digital detector array terms us

17、ed in this practice aredefined in Practice E2597.4. Summary of Practice4.1 A fundamental principle of DICONDE is the use ofstandard definitions and attribute formats for data communica-tion and storage. This means all systems that are DICONDEcompliant use a common data dictionary and common com-muni

18、cation protocols. To further standardization, the elementsin the data dictionary are organized into common groupsreferred to as information modules. The data dictionary andinformation modules common to all NDE modalities aredefined in Practice E2339.4.2 The data dictionary and information modules sp

19、ecifiedin Practice E2339 do not cover the information storagerequirements for each individual modality (CT, DR, CR, UT,etc.). Additions to the data dictionary and information modulesare required to support the individual modalities. This practicecontains the additions to the DICONDE data dictionary

20、andinformation modules necessary for digital X-ray inspection.4.3 The highest organizational level in the DICONDEinformation model is the information object definition (IOD).An information object definition is a collection of the infor-mation modules necessary to represent a set of test results from

21、a specific modality. This practice contains information objectdefinitions for digital X-ray inspection.5. Significance and Use5.1 Personnel that are responsible for the creation, transfer,and storage of digital X-ray test results will use this standard.This practice defines a set of information modu

22、les that alongwith Practice E2339 and the DICOM standard provide astandard means to organize digital X-ray test parameters andresults. The digital X-ray test results may be displayed andanalyzed on any device that conforms to this standard. Person-nel wishing to view any digital X-ray inspection dat

23、a storedaccording to Practice E2339 may use this document to helpthem decode and display the data contained in the DICONDE-compliant inspection record.6. Information Object Definitions6.1 Digital X-ray Image IOD Description:6.1.1 The digital X-ray (DX) Image Information ObjectDefinition specifies an

24、 image that has been created by a directdigital X-ray imaging device for NDE purposes. To avoidduplication of relevant material from the DICOM standard, theIOD definition will follow that for DX Images found in Part 3,Section A.26 of the DICOM standard except as noted below inTable 1. Table 1 is not

25、 stand-alone and must be used inconjunction with Part 3, Section A.26 of the DICOM standardto have a complete definition of the NDE DX informationobject.6.1.2 This IOD will use the Service-Object Pair (SOP)Classes for the DX IOD as defined in Part 4, Section B5 of theDICOM standard.6.2 Digital X-ray

26、 Multi-Frame Image IOD Description:6.2.1 The digital X-ray (DX) Multi-frame (MF) ImageInformation Object Definition specifies an image that has beencreated by a direct digital X-ray imaging device for NDEpurposes. To avoid duplication of relevant material from theDICOM standard, the IOD definition w

27、ill follow that forEnhanced X-ray Angiographic (Enhanced XA) Images foundin Part 3, Section A.47 of the DICOM standard except as notedbelow in Table 2. Table 2 is not stand-alone and must be usedin conjunction with Part 3, Section A.47 of the DICOMstandard to have a complete definition of the NDE DX

28、-MFinformation object.6.2.2 This IOD will use the Service-Object Pair (SOP)Classes for the Enhanced XA IOD as defined in Part 4, SectionB5 of the DICOM standard.7. Information Modules7.1 NDE DX Detector Module:7.1.1 Table 3 specifies the Attributes that describe NDEDirect Digital X-ray (DX) Detector

29、s.7.1.1.1 For NDE DX Images, Detector Type (0018,7004) isspecified to use the following defined terms.DIRECTSCINTILLATOR7.1.1.2 For NDE DX Images, Detector Configuration(0018,7005) is specified to use the following defined terms.AREALINEARTABLE 1 DX Image Information Object DefinitionDICOM Module DI

30、CONDE Module Reference UsageAPatient Component Practice E2339, Section 7 MSpecimen Identification Not ApplicableClinical Trial Subject Not ApplicableGeneral Study Component Study Practice E2339, Section 7 MPatient Study Not ApplicableClinical Trial Study Not ApplicableGeneral Series Component Series

31、 Practice E2339, Section 7 MClinical Trial Series Not ApplicableGeneral Equipment NDE Equipment MContrast/Bolus Not ApplicableDX Anatomy Imaged Needed for DICOM compatibilityDX Detector NDE DX Detector 7.1 MNDE Indication Practice E2339, Section 7 UNDE Geometry Practice E2339, Section 7 UNDE DX Cali

32、bration 7.2 UDataAcquisition Content Needed for DICOM compatibilityADefinition of usage codes can be found in Part 3, Section A.1.3 of the DICOM standard.E2699 1127.2 NDE DX Calibration Data Module:7.2.1 Table 4 specifies the Attributes that describe NDEdirect digital X-ray calibration data.8. Keywo

33、rds8.1 DICOM; DICONDE; direct digital X-ray; DX; digitaldata transmission; digital data storage; database; file formatTABLE 2 DX MF Image Information Object DefinitionDICOM Module DICONDE Module Reference UsageAPatient Component Practice E2339, Section 7 MSpecimen Identification Not ApplicableClinic

34、al Trial Subject Not ApplicableGeneral Study Component Study Practice E2339, Section 7 MPatient Study Not ApplicableClinical Trial Study Not ApplicableGeneral Series Component Series Practice E2339, Section 7 MClinical Trial Series Not ApplicableGeneral Equipment NDE Equipment Practice E2339, Sectio

35、n 7 MEnhanced Contrast/Bolus Not ApplicableAcquisition Context Needed for DICOMcompatibilityCardiac Synchronization Not ApplicableRespiratory Synchronization Not ApplicableX-Ray Detector NDE DX Detector 7.1 MNDE Indication E2339, Section 7 UNDE Geometry Practice E2339, Section 7 UNDE DX Calibration

36、7.2 UDataADefinition of usage codes can be found in Part 3, Section A.1.3 of the DICOM standard.E2699 113TABLE 3 NDE DX Detector Module AttributesAttribute Name Tag VR VM TypeADescriptionDetector Type (0018,7004) CS 1 2 The type of detector used to acquire projection data.Detector Configuration (001

37、8,7005) CS 1 3 The physical configuration of the detector.Detector Description (0018,7006) LT 1 3 Free-text description of the detector.Detector Mode (0018,700A) LT 1 3 Text description of the operating mode of the detector.Detector ID (0018,7008) SH 1 3 The ID or serial number of the detector used

38、to acquire projectiondata.Date of Last Detector Calibration (0018,700C) DA 1-n 3 Date of the last calibration for the equipment.Time of Last Detector Calibration (0018,700E) TM 1-n 3 Time of the last calibration for the equipment.Detector Active Time (0018,7014) DS 1 3 Time in msec that the detector

39、 is active during acquisition of thisdata.Detector Activation Offset from Exposure (0018,7016) DS 1 3 Offset time in msec that the detector becomes active after the X-raybeam is turned on during the acquisition of this data. May benegative.Detector Binning (0018,701A) DS 2 3 Number of active detecto

40、rs used to generate a single pixel.Specified as the number of row detectors per pixel followed by thenumber of column detectors.Internal Detector Frame Time (0014,3011) DS 1 3 The time in msec that the detector is acquiring an image.Number of Frames Integrated (0014,3012) DS 1 3 The number of frames

41、 integrated to form an image.Detector Manufacturers Name (0018,702A) LO 1 3 Name of the manufacturer of the detector component of theacquisition system.Detector Manufacturers Model Number (0018,702B) LO 1 3 Model number of the detector component of the acquisition system.Detector Conditions Nominal

42、Flag (0018,7000) CS 1 3 A flag that indicates whether or not the detector is operating withinnormal tolerances during data acquisition. This flag is intended toindicate whether there has been some compromise of the diagnosticquality of the data due to some operating condition (for example,overheatin

43、g).Sensitivity (0018,6000) DS 1 3 Detector sensitivity in manufacturer specific units.BField of View Shape (0018,1147) CS 1 3 Shape of the Field of View, that is, the image pixels.Field of View Dimension(s) (0018,1149) IS 1-2 3 Dimensions in mm of the Field of View.Field of View Origin (0018,7030) D

44、S 2 1C Required if the Field of View has been rotated or flipped. Offset ofthe Top Left Hand Corner (TLHC) of arectangle circumscribing theField of View before rotation or flipping, from the TLHC of thephysical detector area measured in physical detector pixels as a rowoffset followed by a column of

45、fset.Field of View Rotation (0018,7032) DS 1 1C Required if the Field of View has been rotated. Clockwise rotation indegrees of the Field of View relative to the physical detector.Field of View Horizontal Flip (0018,7034) CS 1 1C Required if the Field of View has been rotated. Whether or not ahorizo

46、ntal flip has been applied to the Field of View after rotationrelative to the physical detector as described in the Field of ViewRotation.Imager Pixel Spacing (0018,1164) DS 2 1 Physical distance measured at the front plane of the detectorhousing between the center of each image pixel specified by a

47、numeric pair row spacing value followed by a column spacingvalue in mm.Detector Element Physical Size (0018,7020) DS 2 3 Physical dimensions of each detector element in mm that comprisesthe detector matrix. Expressed as the rowdimension followed by thecolumn dimension.Detector Element Spacing (0018,

48、7022) DS 2 3 Physical distance between the center of each detector element,specified by a numeric pair row spacing value in mm followed bycolumn spacing value in mm.Detector Active Shape (0018,7024) CS 1 3 Shape of the active area.Detector Active Dimension(s) (0018,7026) DS 1-2 3 Dimension(s) in mm

49、of the active area.Detector Active Origin (0018,7028) DS 2 3 Offset of the TLHC of a rectangle circumscribing the active detectorarea from the TLHC of a rectangle circumscribing the physicaldetector area, measures in physical detector pixels as a row offsetfollowed by a column offset.Detector Temperature Sequence (0014,3020) SQ 1 3 Sequence that contains detector temperature information.Sensor Name (0014,3022) ST 1 3 The name of the sensor.Horizontal Offset (0014,3024) DS 1 3 The horizontal offset in mm from the left position of the detector.Vertical Offset (0014,3026) DS 1