ISO 10303-214:2001

INTERNATIONAL ISO
STANDARD 10303-214
First edition
2001-02-15
Industrial automation systems and
integration — Product data representation
and exchange —
Part 214:
Application protocol: Core data for
automotive mechanical design processes
Systèmes d'automatisation industrielle et intégration — Représentation et
échange de données de produits —
Partie 214: Protocole d'application: Données de base pour la construction
automobile
Reference number
©
ISO 2001
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ii © ISO 2001 — All rights reserved

Contents Page
1 Scope . . . . . . . . . 1
2 Normativereferences . . . . . . . . 3
3 Terms,definitions,abbreviations,andsymbols . . . . . 7
3.1 Terms defined in ISO 10303–1 . . . . . . 7
3.2 Terms defined in ISO 10303–31 . . . . . . . . 8
3.3 Terms defined in ISO 10303–42 . . . . . . . . 8
3.4 Terms defined in ISO 10303–44 . . . . . . . . 10
3.5 Terms defined in ISO 10303–45 . . . . . . . . 10
3.6 Terms defined in ISO 10303–46 . . . . . . . . 10
3.7 Terms defined in ISO 10303–47 . . . . . . . . 10
3.8 Terms defined in ISO 10303–105 . . . . . . . 11
3.9 Terms defined in ISO 10303–202 . . . . . . . 11
3.10 Terms defined in ISO 13584–42 . . . . . . . . 11
3.11 Othertermsanddefinitions . . . . . . 12
3.12 Symbolsandabbreviations . . . . . . 12
4 Informationrequirements . . . . . . . 15
4.1 Units of functionality . . . . . . . . . 15
4.1.1 surface_condition (C1) . . . . . . 17
4.1.2 explicit_draughting(D1) . . . . . . 18
4.1.3 associative_annotation (D2) . . . . . . . 19
4.1.4 external_reference_mechanism(E1) . . . . . 19
4.1.5 user_defined_feature(FF1) . . . . . . . 22
4.1.6 included_feature(FF2) . . . . . . 22
4.1.7 generative_featured_shape(FF3) . . . . . 29
4.1.8 wireframe_model_2d(G1) . . . . . . 30
4.1.9 wireframe_model_3d(G2) . . . . . . 31
4.1.10 connected_surface_model(G3) . . . . . 32
4.1.11 faceted_b_rep_model (G4) . . . . . . . . 34
4.1.12 b_rep_model(G5) . . . . . . . 35
4.1.13 compound_model (G6). . . . . . 37
4.1.14 csg_model(G7) . . . . . . . . 39
4.1.15 geometrically_bounded_surface_model (G8) . . . . 41
4.1.16 kinematics(K1) . . . . . . . . 43
4.1.17 measured_data (MD1) . . . . . . 45
4.1.18 item_property(PR1) . . . . . . 45
4.1.19 geometric_presentation (P1) . . . . . . . 47
4.1.20 annotated_presentation (P2) . . . . . . . 48
4.1.21 shaded_presentation (P3). . . . . . 49
4.1.22 product_management_data (S1) . . . . . 50
4.1.23 element_structure(S2) . . . . . . 52
c ISO 2001 – All rights reserved iii

4.1.24 item_definition_structure (S3) . . . . . . 54
4.1.25 effectivity(S4) . . . . . . . 55
4.1.26 work_management(S5) . . . . . . 56
4.1.27 classification(S6) . . . . . . . 57
4.1.28 specification_control (S7) . . . . . . . . 58
4.1.29 process_plan(S8) . . . . . . . 61
4.1.30 dimension_tolerance (T1) . . . . . . . . 62
4.1.31 geometric_tolerance (T2) . . . . . . . . 64
4.2 Applicationobjects . . . . . . . 65
4.3 Applicationassertions . . . . . . . 519
5 Applicationinterpretedmodel . . . . . . . . 817
5.1 Mappingtable . . . . . . . . 817
5.2 AIMEXPRESSshortlisting . . . . . . 1939
5.2.1 Fundamental concepts and assumptions . . . . . 1956
5.2.2 automotive_designtypes . . . . . . 1983
5.2.3 automotive_design entities . . . . . . . . 2006
5.2.4 automotive_designruledefinitions. . . . . 2242
5.2.5 automotive_designfunctiondefinitions . . . . . 2494
6 Conformancerequirements . . . . . . . 2511
6.1 Conformance Class for component design with 3D shape representation (CC1) . 2512
6.2 ConformanceClassforassemblydesignwith3Dshaperepresentation(CC2) . . 2512
6.3 Conformance Class for component drawings with wireframe or surface shape repre-
sentation(CC3) . . . . . . . . 2514
6.4 Conformance Class for assembly drawings with wireframe, surface or solid shape re-
presentation(CC4) . . . . . . . 2514
6.5 ConformanceClassforstylingdata(CC5) . . . . . 2515
6.6 Conformance Class for product data management without shape representation (CC6) 2516
6.7 Conformance Class for product data management with 3D shape representation (CC7) 2516
6.8 Conformance Class for configuration controlled design without shape representation
(CC8) . . . . . . . . 2517
6.9 Conformance Class for configuration controlled design with 3D shape representation
(CC9) . . . . . . . . 2517
6.10 Conformance Class for configuration controlled design with shape representation and
draughtingdata(CC10). . . . . . . 2518
6.11 Conformance Class for process planning of components (CC11) . . . . . 2519
6.12 Conformance Class for process planning of components with form feature and toler-
ancedata(CC12) . . . . . . . 2519
6.13 Conformance Class for effectivity controlled process planning of assemblies (CC13) . 2520
6.14 ConformanceClassforfeaturebaseddesign(CC14) . . . . 2521
6.15 Conformance Class for feature based design with flexible feature placement (CC15) . 2522
6.16 Conformance Class for kinematic simulations for components and assemblies with 3D
shaperepresentation(CC16) . . . . . . 2523
6.17 ConformanceClassformeasureddata(CC17). . . . . 2523
ivc ISO 2001 – All rights reserved

6.18 Conformance Class for configuration controlled process planning of components and
assemblieswith3Dshaperepresentationandkinematicdata(CC18) . . . 2524
6.19 Conformance Class for configuration controlled process planning of components and
assemblies with 3D shape representation including form features and kinematic data
(CC19) . . . . . . . . 2524
6.20 Conformance Class for data storage and retrieval systems (CC20) . . . . 2525
AnnexA(normative) AIMEXPRESSexpandedlisting . . . . 2557
AnnexB(normative) AIMshortnames. . . . . . 3008
Annex C (normative) Implementation method-specific requirements . . . 3043
C.1 Requirements specific to the implementation method defined in ISO 10303–21 . 3043
Annex D (normative) Protocol Implementation Conformance Statement (PICS) proforma . . 3044
D.1 Generalconformancestatements . . . . . . 3046
D.1.1 Protocolimplementationidentification . . . . . 3046
D.1.2 Implementationmethod . . . . . . 3046
D.1.3 Implementedconformanceclasses . . . . . 3046
D.2 ConformancestatementsforUoFC1. . . . . . 3047
D.3 ConformancestatementsforUoFD1 . . . . . 3047
D.4 ConformancestatementsforUoFD2 . . . . . 3047
D.5 ConformancestatementsforUoFE1. . . . . . 3047
D.6 ConformancestatementsforUoFFF1 . . . . . 3048
D.7 ConformancestatementsforUoFFF2 . . . . . 3048
D.8 ConformancestatementsforUoFG1 . . . . . 3049
D.9 ConformancestatementsforUoFG2 . . . . . 3049
D.10 ConformancestatementsforUoFG3 . . . . . 3049
D.11 ConformancestatementsforUoFG4 . . . . . 3049
D.12 ConformancestatementsforUoFG5 . . . . . 3050
D.13 ConformancestatementsforUoFG6 . . . . . 3050
D.14 ConformancestatementsforUoFG7 . . . . . 3050
D.15 ConformancestatementsforUoFG8 . . . . . 3051
D.16 ConformancestatementsforUoFK1 . . . . . 3051
D.17 ConformancestatementsforUoFMD1 . . . . . 3051
D.18 ConformancestatementsforUoFPR1 . . . . . 3052
D.19 ConformancestatementsforUoFP1 . . . . . . 3052
D.20 ConformancestatementsforUoFP2 . . . . . . 3052
D.21 ConformancestatementsforUoFP3 . . . . . . 3052
D.22 ConformancestatementsforUoFS1 . . . . . . 3053
D.23 ConformancestatementsforUoFS2 . . . . . . 3053
D.24 ConformancestatementsforUoFS4 . . . . . . 3054
D.25 ConformancestatementsforUoFS5 . . . . . . 3054
D.26 ConformancestatementsforUoFS6 . . . . . . 3054
D.27 ConformancestatementsforUoFS7 . . . . . . 3055
D.28 ConformancestatementsforUoFS8 . . . . . . 3055
D.29 ConformancestatementsforUoFT1. . . . . . 3055
c ISO 2001 – All rights reserved v

D.30 ConformancestatementsforUoFT2. . . . . . 3056
AnnexE(normative) Informationobjectregistration . . . . 3057
E.1 Documentidentification . . . . . . . 3057
E.2 Schemaidentification . . . . . . . 3057
AnnexF(informative) Applicationactivitymodel. . . . . 3062
F.1 Applicationactivitymodeldefinitionsandabbreviations . . . . 3062
F.2 Applicationactivitymodeldiagrams . . . . . . 3068
AnnexG(informative) Applicationreferencemodel. . . . . . 3079
Annex H (informative) AIM EXPRESS-G . . . . . . . 3169
AnnexJ(informative) AIMEXPRESSlisting. . . . . 3307
AnnexK(informative) ARMEXPRESSlisting . . . . . 3309
Bibliography . . . . . . . . . 3310
Index . . . . . . . . . . 3312
Figures
Figure1 Automotivemechanicaldesignprocesses. . . . . . xix
Figure2 Dataplanningmodel . . . . . . . xx
Figure3 Featuresforsolid-typeparts. . . . . . 24
Figure4 Featuresforsheet-typeparts . . . . . . 25
Figure5 InterdependenciesamongUoFs. . . . . . 53
Figure6 UoFS7:ARMstructure. . . . . . 59
Figure 7 Form features in panel defined by target boundaries and wall angles . . 81
Figure8 ParametersdefininganAngle_taper . . . . . 82
Figure 9 Parameters defining an Angular_location_dimension . . . . 84
Figure 10 Angular_location_dimension versus Angular_size_dimension . . . . . 85
Figure 11 Annotation_subfigure for a hole on a technical drawing . . . 87
Figure12 ParametersdefiningaBead_feature. . . . . 102
Figure13 ParametersdefiningaChamfer . . . . . . 110
Figure 14 Parameters defining a Circular_boss . . . . . 113
Figure 15 Definition of a Circular_closed_profile . . . . . . . 114
Figure16 Parametersdefininganoffsetinacircularpattern . . . . 114
Figure17 Parametersdefininganomissioninacircularpattern . . . . 115
Figure18 Circular_patternwithrotationofbasefeature . . . . 118
Figure 19 Definition of a Complete_circular_path . . . . . . . 133
Figure 20 Usage of compound datums. . . . . . 137
Figure 21 Configuration inheritance scheme . . . . . . 146
Figure 22 Parameters defining an edge round with constant radius by offsets . . 148
Figure23 Parametersdefiningafilletwithaconstantradiusbyoffsets . . . 149
vic ISO 2001 – All rights reserved

Figure24 Pre-definedcolours . . . . . . . . 155
Figure25 Predefinedcurvefonts. . . . . . . 156
Figure26 Draughtingcalloutsonadrawing . . . . . . 167
Figure27 Datumtargetsonadrawing . . . . . . 168
Figure 28 Definition of a taper by two diameters . . . . . . . 183
Figure 29 Components of a dimension in a drawing . . . . . . 186
Figure30 Predefineddimensionsymbols . . . . . . . 187
Figure 31 Edge transition . . . . . . . 215
Figure32 Fillareastyles . . . . . . . 235
Figure 33 Parameters defining a Flat_slot_end_type . . . . . 238
Figure34 Panelfeaturewiththeshapeofa’stairstep’. . . . . 242
Figure 35 Boundary of a General_boss . . . . . . . . 243
Figure 36 Definition of a General_closed_profile . . . . . . . 248
Figure 37 Definition of a General_open_profile . . . . . 253
Figure 38 Definition of a General_path . . . . . . . . 255
Figure 39 Placement of additional instances in a General_pattern . . . 256
Figure40 Theoreticalwheelbaseofatruck . . . . . . 257
Figure41 General_tolerances . . . . . . . 261
Figure42 Predefinedgeometricaltolerancesymbols . . . . . 271
Figure43 ApplicationofaGeometrical_relationship . . . . . 272
Figure44 Hardness. . . . . . . . 277
Figure45 Crosssectionsofholes . . . . . . 279
Figure 46 Parameters defining a Joggle_feature . . . . . 298
Figure 47 Placement relationships kinematic pair frames and mating links . . . . 306
Figure 48 Definition of a Linear_path . . . . . . 315
Figure49 ParametersdefiningaLocator_feature . . . . . 317
Figure 50 Definition of a Ngon_profile . . . . . . . . 333
Figure 51 Parameters defining a Panel_hole_with_barring . . . . 342
Figure 52 Definition of a Partial_circular_path . . . . . 344
Figure 53 Definition of a Partial_circular_profile . . . . . . . 345
Figure54 Sweeppathforpocketfeatures . . . . . . 363
Figure55 Predefinedpointmarkers . . . . . . 369
Figure 56 Position tolerancing with affected planes . . . . . . 372
Figure 57 Example structure of Product_class objects in a hierarchy . . . 388
Figure58 Shapeofaslotwithradiusedend . . . . . . 414
Figure 59 Rectangular_closed_pocket in a part . . . . . 415
Figure 60 Definition of a Rectangular_closed_profile . . . . . 416
Figure 61 Parameters defining an offset in a rectangular pattern . . . . 418
Figure 62 Parameters defining a Rectangular_pattern . . . . . 421
Figure63 ParametersdefiningaRib_feature . . . . . 429
Figure 64 Right_angular_wedge and its attributes . . . . . . . 430
Figure 65 Definition of a Rounded_u_profile . . . . . 432
Figure 66 Same_time_machining_relationship . . . . . 433
Figure67 Shape_elementonashaft . . . . . . 440
Figure68 variousshapesofslots . . . . . . 446
Figure 69 Definition of a Square_u_profile . . . . . . 460
c ISO 2001 – All rights reserved vii

Figure 70 Pre-defined surface condition symbols . . . . . . . 471
Figure 71 Definition of a Tee_profile . . . . . . 481
Figure72 Predefinedterminatorsymbols . . . . . . . 484
Figure73 Textappearanceandrotation . . . . . . 485
Figure74 Screwwiththread . . . . . . . 486
Figure75 Tolerance_zone . . . . . . . 491
Figure 76 Value terminated joggle feature . . . . . . . 502
Figure 77 Definition of a Vee_profile . . . . . . 505
Figure 78 Parameters defining a Woodruff_slot_end_type . . . . 515
Figure 79 example instantiation for specified_higher_usage_occurrence . . . . . 1962
Figure 80 example for usage of product_definition_occurrence_relationship . . . 1964
Figure81 Mainconceptsofspecificationcontrol . . . . . 1972
Figure 82 example instantiation package_product_concept_feature . . . 1973
Figure 83 Use of common_datum . . . . . . 1982
Figure84 Useofviewingplanes . . . . . . . 1982
Figure85 InterdependenciesamongUoFs. . . . . . 2513
Figure F.1 AAM diagram of node A-0: Core data for automotive mechanical design processes 3070
Figure F.2 AAM diagram of node A0: Develop product and tool . . . . 3071
Figure F.3 AAM diagram of node A1: Develop product . . . . 3072
Figure F.4 AAM diagram of node A12: Style product . . . . . 3073
Figure F.5 AAM diagram of node A13: Design product . . . . 3074
Figure F.6 AAM diagram of node A14: Evaluate product . . . . 3075
Figure F.7 AAM diagram of node A2: Develop Tool . . . . . 3076
Figure F.8 AAM diagram of node A22: Design tool . . . . . . 3077
Figure F.9 AAM diagram of node A23: Manufacture production tools . . . 3078
Figure G.1 ARM diagram in EXPRESS_G: 1 of 89 . . . . . . 3080
Figure G.2 ARM diagram in EXPRESS_G: 2 of 89 . . . . . . 3081
Figure G.3 ARM diagram in EXPRESS_G: 3 of 89 . . . . . . 3082
Figure G.4 ARM diagram in EXPRESS_G: 4 of 89 . . . . . . 3083
Figure G.5 ARM diagram in EXPRESS_G: 5 of 89 . . . . . . 3084
Figure G.6 ARM diagram in EXPRESS_G: 6 of 89 . . . . . . 3085
Figure G.7 ARM diagram in EXPRESS_G: 7 of 89 . . . . . . 3086
Figure G.8 ARM diagram in EXPRESS_G: 8 of 89 . . . . . . 3087
Figure G.9 ARM diagram in EXPRESS_G: 9 of 89 . . . . . . 3088
Figure G.10 ARM diagram in EXPRESS_G: 10 of 89 . . . . . . 3089
Figure G.11 ARM diagram in EXPRESS_G: 11 of 89 . . . . . . 3090
Figure G.12 ARM diagram in EXPRESS_G: 12 of 89 . . . . . . 3091
Figure G.13 ARM diagram in EXPRESS_G: 13 of 89 . . . . . . 3092
Figure G.14 ARM diagram in EXPRESS_G: 14 of 89 . . . . . . 3093
Figure G.15 ARM diagram in EXPRESS_G: 15 of 89 . . . . . . 3094
Figure G.16 ARM diagram in EXPRESS_G: 16 of 89 . . . . . . 3095
Figure G.17 ARM diagram in EXPRESS_G: 17 of 89 . . . . . . 3096
Figure G.18 ARM diagram in EXPRESS_G: 18 of 89 . . . . . . 3097
Figure G.19 ARM diagram in EXPRESS_G: 19 of 89 . . . . . . 3098
Figure G.20 ARM diagram in EXPRESS_G: 20 of 89 . . . . . . 3099
Figure G.21 ARM diagram in EXPRESS_G: 21 of 89 . . . . . . 3100
viiic ISO 2001 – All rights reserved

Figure G.22 ARM diagram in EXPRESS_G: 22 of 89 . . . . . . 3101
Figure G.23 ARM diagram in EXPRESS_G: 23 of 89 . . . . . . 3102
Figure G.24 ARM diagram in EXPRESS_G: 24 of 89 . . . . . . 3103
Figure G.25 ARM diagram in EXPRESS_G: 25 of 89 . . . . . . 3104
Figure G.26 ARM diagram in EXPRESS_G: 26 of 89 . . . . . . 3105
Figure G.27 ARM diagram in EXPRESS_G: 27 of 89 . . . . . . 3106
Figure G.28 ARM diagram in EXPRESS_G: 28 of 89 . . . . . . 3107
Figure G.29 ARM diagram in EXPRESS_G: 29 of 89 . . . . . . 3108
Figure G.30 ARM diagram in EXPRESS_G: 30 of 89 . . . . . . 3109
Figure G.31 ARM diagram in EXPRESS_G: 31 of 89 . . . . . . 3110
Figure G.32 ARM diagram in EXPRESS_G: 32 of 89 . . . . . . 3111
Figure G.33 ARM diagram in EXPRESS_G: 33 of 89 . . . . . . 3112
Figure G.34 ARM diagram in EXPRESS_G: 34 of 89 . . . . . . 3113
Figure G.35 ARM diagram in EXPRESS_G: 35 of 89 . . . . . . 3114
Figure G.36 ARM diagram in EXPRESS_G: 36 of 89 . . . . . . 3115
Figure G.37 ARM diagram in EXPRESS_G: 37 of 89 . . . . . . 3116
Figure G.38 ARM diagram in EXPRESS_G: 38 of 89 . . . . . . 3117
Figure G.39 ARM diagram in EXPRESS_G: 39 of 89 . . . . . . 3118
Figure G.40 ARM diagram in EXPRESS_G: 40 of 89 . . . . . . 3119
Figure G.41 ARM diagram in EXPRESS_G: 41 of 89 . . . . . . 3120
Figure G.42 ARM diagram in EXPRESS_G: 42 of 89 . . . . . . 3121
Figure G.43 ARM diagram in EXPRESS_G: 43 of 89 . . . . . . 3122
Figure G.44 ARM diagram in EXPRESS_G: 44 of 89 . . . . . . 3123
Figure G.45 ARM diagram in EXPRESS_G: 45 of 89 . . . . . . 3124
Figure G.46 ARM diagram in EXPRESS_G: 46 of 89 . . . . . . 3125
Figure G.47 ARM diagram in EXPRESS_G: 47 of 89 . . . . . . 3126
Figure G.48 ARM diagram in EXPRESS_G: 48 of 89 . . . . . . 3127
Figure G.49 ARM diagram in EXPRESS_G: 49 of 89 . . . . . . 3128
Figure G.50 ARM diagram in EXPRESS_G: 50 of 89 . . . . . . 3129
Figure G.51 ARM diagram in EXPRESS_G: 51 of 89 . . . . . . 3130
Figure G.52 ARM diagram in EXPRESS_G: 52 of 89 . . . . . . 3131
Figure G.53 ARM diagram in EXPRESS_G: 53 of 89 . . . . . . 3132
Figure G.54 ARM diagram in EXPRESS_G: 54 of 89 . . . . . . 3133
Figure G.55 ARM diagram in EXPRESS_G: 55 of 89 . . . . . . 3134
Figure G.56 ARM diagram in EXPRESS_G: 56 of 89 . . . . . . 3135
Figure G.57 ARM diagram in EXPRESS_G: 57 of 89 . . . . . . 3136
Figure G.58 ARM diagram in EXPRESS_G: 58 of 89 . . . . . . 3137
Figure G.59 ARM diagram in EXPRESS_G: 59 of 89 . . . . . . 3138
Figure G.60 ARM diagram in EXPRESS_G: 60 of 89 . . . . . . 3139
Figure G.61 ARM diagram in EXPRESS_G: 61 of 89 . . . . . . 3140
Figure G.62 ARM diagram in EXPRESS_G: 62 of 89 . . . . . . 3141
Figure G.63 ARM diagram in EXPRESS_G: 63 of 89 . . . . . . 3142
Figure G.64 ARM diagram in EXPRESS_G: 64 of 89 . . . . . . 3143
Figure G.65 ARM diagram in EXPRESS_G: 65 of 89 . . . . . . 3144
Figure G.66 ARM diagram in EXPRESS_G: 66 of 89 . . . . . . 3145
Figure G.67 ARM diagram in EXPRESS_G: 67 of 89 . . . . . . 3146
c ISO 2001 – All rights reserved ix

Figure G.68 ARM diagram in EXPRESS_G: 68 of 89 . . . . . . 3147
Figure G.69 ARM diagram in EXPRESS_G: 69 of 89 . . . . . . 3148
Figure G.70 ARM diagram in EXPRESS_G: 70 of 89 . . . . . . 3149
Figure G.71 ARM diagram in EXPRESS_G: 71 of 89 . . . . . . 3150
Figure G.72 ARM diagram in EXPRESS_G: 72 of 89 . . . . . . 3151
Figure G.73 ARM diagram in EXPRESS_G: 73 of 89 . . . . . . 3152
Figure G.74 ARM diagram in EXPRESS_G: 74 of 89 . . . . . . 3153
Figure G.75 ARM diagram in EXPRESS_G: 75 of 89 . . . . . . 3154
Figure G.76 ARM diagram in EXPRESS_G: 76 of 89 . . . . . . 3155
Figure G.77 ARM diagram in EXPRESS_G: 77 of 89 . . . . . . 3156
Figure G.78 ARM diagram in EXPRESS_G: 78 of 89 . . . . . . 3157
Figure G.79 ARM diagram in EXPRESS_G: 79 of 89 . . . . . . 3158
Figure G.80 ARM diagram in EXPRESS_G: 80 of 89 . . . . . . 3159
Figure G.81 ARM diagram in EXPRESS_G: 81 of 89 . . . . . . 3160
Figure G.82 ARM diagram in EXPRESS_G: 82 of 89 . . . . . . 3161
Figure G.83 ARM diagram in EXPRESS_G: 83 of 89 . . . . . . 3162
Figure G.84 ARM diagram in EXPRESS_G: 84 of 89 . . . . . . 3163
Figure G.85 ARM diagram in EXPRESS_G: 85 of 89 . . . . . . 3164
Figure G.86 ARM diagram in EXPRESS_G: 86 of 89 . . . . . . 3165
Figure G.87 ARM diagram in EXPRESS_G: 87 of 89 . . . . . . 3166
Figure G.88 ARM diagram in EXPRESS_G: 88 of 89 . . . . . . 3167
Figure G.89 ARM diagram in EXPRESS_G: 89 of 89 . . . . . . 3168
Figure H.1 AIM diagram in EXPRESS_G: 1 of 137 . . . . . . 3170
Figure H.2 AIM diagram in EXPRESS_G: 2 of 137 . . . . . . 3171
Figure H.3 AIM diagram in EXPRESS_G: 3 of 137 . . . . . . 3172
Figure H.4 AIM diagram in EXPRESS_G: 4 of 137 . . . . . . 3173
Figure H.5 AIM diagram in EXPRESS_G: 5 of 137 . . . . . . 3174
Figure H.6 AIM diagram in EXPRESS_G: 6 of 137 . . . . . . 3175
Figure H.7 AIM diagram in EXPRESS_G: 7 of 137 . . . . . . 3176
Figure H.8 AIM diagram in EXPRESS_G: 8 of 137 . . . . . . 3177
Figure H.9 AIM diagram in EXPRESS_G: 9 of 137 . . . . . . 3178
Figure H.10 AIM diagram in EXPRESS_G: 10 of 137 . . . . . 3179
Figure H.11 AIM diagram in EXPRESS_G: 11 of 137 . . . . . 3180
Figure H.12 AIM diagram in EXPRESS_G: 12 of 137 . . . . . 3181
Figure H.13 AIM diagram in EXPRESS_G: 13 of 137 . . . . . 3182
Figure H.14 AIM diagram in EXPRESS_G: 14 of 137 . . . . . 3183
Figure H.15 AIM diagram in EXPRESS_G: 15 of 137 . . . . . 3184
Figure H.16 AIM diagram in EXPRESS_G: 16 of 137 . . . . . 3185
Figure H.17 AIM diagram in EXPRESS_G: 17 of 137 . . . . . 3186
Figure H.18 AIM diagram in EXPRESS_G: 18 of 137 . . . . . 3187
Figure H.19 AIM diagram in EXPRESS_G: 19 of 137 . . . . . 3188
Figure H.20 AIM diagram in EXPRESS_G: 20 of 137 . . . . . 3189
Figure H.21 AIM diagram in EXPRESS_G: 21 of 137 . . . . . 3190
Figure H.22 AIM diagram in EXPRESS_G: 22 of 137 . . . . . 3191
Figure H.23 AIM diagram in EXPRESS_G: 23 of 137 . . . . . 3192
Figure H.24 AIM diagram in EXPRESS_G: 24 of 137 . . . . . 3193
xc ISO 2001 – All rights reserved

Figure H.25 AIM diagram in EXPRESS_G: 25 of 137 . . . . . 3194
Figure H.26 AIM diagram in EXPRESS_G: 26 of 137 . . . . . 3195
Figure H.27 AIM diagram in EXPRESS_G: 27 of 137 . . . . . 3196
Figure H.28 AIM diagram in EXPRESS_G: 28 of 137 . . . . . 3197
Figure H.29 AIM diagram in EXPRESS_G: 29 of 137 . . . . . 3198
Figure H.30 AIM diagram in EXPRESS_G: 30 of 137 . . . . . 3199
Figure H.31 AIM diagram in EXPRESS_G: 31 of 137 . . . . . 3200
Figure H.32 AIM diagram in EXPRESS_G: 32 of 137 . . . . . 3201
Figure H.33 AIM diagram in EXPRESS_G: 33 of 137 . . . . . 3202
Figure H.34 AIM diagram in EXPRESS_G: 34 of 137 . . . . . 3203
Figure H.35 AIM diagram in EXPRESS_G: 35 of 137 . . . . . 3204
Figure H.36 AIM diagram in EXPRESS_G: 36 of 137 . . . . . 3205
Figure H.37 AIM diagram in EXPRESS_G: 37 of 137 . . . . . 3206
Figure H.38 AIM diagram in EXPRESS_G: 38 of 137 . . . . . 3207
Figure H.39 AIM diagram in EXPRESS_G: 39 of 137 . . . . . 3208
Figure H.40 AIM diagram in EXPRESS_G: 40 of 137 . . . . . 3209
Figure H.41 AIM diagram in EXPRESS_G: 41 of 137 . . . . . 3210
Figure H.42 AIM diagram in EXPRESS_G: 42 of 137 . . . . . 3211
Figure H.43 AIM diagram in EXPRESS_G: 43 of 137 . . . . . 3212
Figure H.44 AIM diagram in EXPRESS_G: 44 of 137 . . . . . 3213
Figure H.45 AIM diagram in EXPRESS_G: 45 of 137 . . . . . 3214
Figure H.46 AIM diagram in EXPRESS_G: 46 of 137 . . . . . 3215
Figure H.47 AIM diagram in EXPRESS_G: 47 of 137 . . . . . 3216
Figure H.48 AIM diagram in EXPRESS_G: 48 of 137 . . . . . 3217
Figure H.49 AIM diagram in EXPRESS_G: 49 of 137 . . . . . 3218
Figure H.50 AIM diagram in EXPRESS_G: 50 of 137 . . . . . 3219
Figure H.51 AIM diagram in EXPRESS_G: 51 of 137 . . . . . 3220
Figure H.52 AIM diagram in EXPRESS_G: 52 of 137 . . . . . 3221
Figure H.53 AIM diagram in EXPRESS_G: 53 of 137 . . . . . 3222
Figure H.54 AIM diagram in EXPRESS_G: 54 of 137 . . . . . 3223
Figure H.55 AIM diagram in EXPRESS_G: 55 of 137 . . . . . 3224
Figure H.56 AIM diagram in EXPRESS_G: 56 of 137 . . . . . 3225
Figure H.57 AIM diagram in EXPRESS_G: 57 of 137 . . . . . 3226
Figure H.58 AIM diagram in EXPRESS_G: 58 of 137 . . . . . 3227
Figure H.59 AIM diagram in EXPRESS_G: 59 of 137 . . . . . 3228
Figure H.60 AIM diagram in EXPRESS_G: 60 of 137 . . . . . 3229
Figure H.61 AIM diagram in EXPRESS_G: 61 of 137 . . . . . 3230
Figure H.62 AIM diagram in EXPRESS_G: 62 of 137 . . . . . 3231
Figure H.63 AIM diagram in EXPRESS_G: 63 of 137 . . . . . 3232
Figure H.64 AIM diagram in EXPRESS_G: 64 of 137 . . . . . 3233
Figure H.65 AIM diagram in EXPRESS_G: 65 of 137 . . . . . 3234
Figure H.66 AIM diagram in EXPRESS_G: 66 of 137 . . . . . 3235
Figure H.67 AIM diagram in EXPRESS_G: 67 of 137 . . . . . 3236
Figure H.68 AIM diagram in EXPRESS_G: 68 of 137 . . . . . 3237
Figure H.69 AIM diagram in EXPRESS_G: 69 of 137 . . . . . 3238
Figure H.70 AIM diagram in EXPRESS_G: 70 of 137 . . . . . 3239
c ISO 2001 – All rights reserved xi

Figure H.71 AIM diagram in EXPRESS_G: 71 of 137 . . . . . 3240
Figure H.72 AIM diagram in EXPRESS_G: 72 of 137 . . . . . 3241
Figure H.73 AIM diagram in EXPRESS_G: 73 of 137 . . . . . 3242
Figure H.74 AIM diagram in EXPRESS_G: 74 of 137 . . . . . 3243
Figure H.75 AIM diagram in EXPRESS_G: 75 of 137 . . . . . 3244
Figure H.76 AIM diagram in EXPRESS_G: 76 of 137 . . . . . 3245
Figure H.77 AIM diagram in EXPRESS_G: 77 of 137 . . . . . 3246
Figure H.78 AIM diagram in EXPRESS_G: 78 of 137 . . . . . 3247
Figure H.79 AIM diagram in EXPRESS_G: 79 of 137 . . . . . 3248
Figure H.80 AIM diagram in EXPRESS_G: 80 of 137 . . . . . 3249
Figure H.81 AIM diagram in EXPRESS_G: 81 of 137 . . . . . 3250
Figure H.82 AIM diagram in EXPRESS_G: 82 of 137 . . . . . 3251
Figure H.83 AIM diagram in EXPRESS_G: 83 of 137 . . . . . 3252
Figure H.84 AIM diagram in EXPRESS_G: 84 of 137 . . . . . 3253
Figure H.85 AIM diagram in EXPRESS_G: 85 of 137 . . . . . 3254
Figure H.86 AIM diagram in EXPRESS_G: 86 of 137 . . . . . 3255
Figure H.87 AIM diagram in EXPRESS_G: 87 of 137 . . . . . 3256
Figure H.88 AIM diagram in EXPRESS_G: 88 of 137 . . . . . 3257
Figure H.89 AIM diagram in EXPRESS_G: 89 of 137 . . . . . 3258
Figure H.90 AIM diagram in EXPRESS_G: 90 of 137 . . . . . 3259
Figure H.91 AIM diagram in EXPRESS_G: 91 of 137 . . . . . 3260
Figure H.92 AIM diagram in EXPRESS_G: 92 of 137 . . . . . 3261
Figure H.93 AIM diagram in EXPRESS_G: 93 of 137 . . . . . 3262
Figure H.94 AIM diagram in EXPRESS_G: 94 of 137 . . . . . 3263
Figure H.95 AIM diagram in EXPRESS_G: 95 of 137 . . . . . 3264
Figure H.96 AIM diagram in EXPRESS_G: 96 of 137 . . . . . 3265
Figure H.97 AIM diagram in EXPRESS_G: 97 of 137 . . . . . 3266
Figure H.98 AIM diagram in EXPRESS_G: 98 of 137 . . . . . 3267
Figure H.99 AIM diagram in EXPRESS_G: 99 of 137 . . . . . 3268
Figure H.100 AIM diagram in EXPRESS_G: 100 of 137 . . . . . 3269
Figure H.101 AIM diagram in EXPRESS_G: 101 of 137 . . . . . 3270
Figure H.102 AIM diagram in EXPRESS_G: 102 of 137 . . . . . 3271
Figure H.103 AIM diagram in EXPRESS_G: 103 of 137 . . . . . 3272
Figure H.104 AIM diagram in EXPRESS_G: 104 of 137 . . . . . 3273
Figure H.105 AIM diagram in EXPRESS_G: 105 of 137 . . . . . 3274
Figure H.106 AIM diagram in EXPRESS_G: 106 of 137 . . . . . 3275
Figure H.107 AIM diagram in EXPRESS_G: 107 of 137 . . . . . 3276
Figure H.108 AIM diagram in EXPRESS_G: 108 of 137 . . . . . 3277
Figure H.109 AIM diagram in EXPRESS_G: 109 of 137 . . . . . 3278
Figure H.110 AIM diagram in EXPRESS_G: 110 of 137 . . . . . 3279
Figure H.111 AIM diagram in EXPRESS_G: 111 of 137 . . . . . 3280
Figure H.112 AIM diagram in EXPRESS_G: 112 of 137 . . . . . 3281
Figure H.113 AIM diagram in EXPRESS_G: 113 of 137 . . . . . 3282
Figure H.114 AIM diagram in EXPRESS_G: 114 of 137 . . . . . 3283
Figure H.115 AIM diagram in EXPRESS_G: 115 of 137 . . . . . 3284
Figure H.116 AIM diagram in EXPRESS_G: 116 of 137 . . . . . 3285
xiic ISO 2001 – All rights reserved

Figure H.117 AIM diagram in EXPRESS_G: 117 of 137 . . . . . 3286
Figure H.118 AIM diagram in EXPRESS_G: 118 of 137 . . . . . 3287
Figure H.119 AIM diagram in EXPRESS_G: 119 of 137 . . . . . 3288
Figure H.120 AIM diagram in EXPRESS_G: 120 of 137 . . . . . 3289
Figure H.121 AIM diagram in EXPRESS_G: 121 of 137 . . . . . 3290
Figure H.122 AIM diagram in EXPRESS_G: 122 of 137 . . . . . 3291
Figure H.123 AIM diagram in EXPRESS_G: 123 of 137 . . . . . 3292
Figure H.124 AIM diagram in EXPRESS_G: 124 of 137 . . . . . 3293
Figure H.125 AIM diagram in EXPRESS_G: 125 of 137 . . . . . 3294
Figure H.126 AIM diagram in EXPRESS_G: 126 of 137 . . . . . 3295
Figure H.127 AIM diagram in EXPRESS_G: 127 of 137 . . . . . 3296
Figure H.128 AIM diagram in EXPRESS_G: 128 of 137 . . . . . 3297
Figure H.129 AIM diagram in EXPRESS_G: 129 of 137 . . . . . 3298
Figure H.130 AIM diagram in EXPRESS_G: 130 of 137 . . . . . 3299
Figure H.131 AIM diagram in EXPRESS_G: 131 of 137 . . . . . 3300
Figure H.132 AIM diagram in EXPRESS_G: 132 of 137 . . . . . 3301
Figure H.133 AIM diagram in EXPRESS_G: 133 of 137 . . . . . 3302
Figure H.134 AIM diagram in EXPRESS_G: 134 of 137 . . . . . 3303
Figure H.135 AIM diagram in EXPRESS_G: 135 of 137 . . . . . 3304
Figure H.136 AIM diagram in EXPRESS_G: 136 of 137 . . . . . 3305
Figure H.137 AIM diagram in EXPRESS_G: 137 of 137 . . . . . 3306
Tables
Table 1 Logical grouping of UoFs. . . . . . 16
Table 2 Mapping table surface_condition UoF (C1) . . . . 820
Table3 Mappingtableexplicit_draughtingUoF(D1) . . . . 837
Table 4 Mapping table associative_annotation UoF (D2) . . . . . . 854
Table5 Mappingtableexternal_reference_mechanismUoF(E1) . . . 860
Table6 Mappingtableuser_defined_featureUoF(FF1) . . . . 932
Table7 Mappingtableincluded_featureUoF(FF2) . . . . 940
Table8 Mappingtablegenerative_featured_shapeUoF(FF3) . . . . 1111
Table9 Mappingtablewireframe_model_2dUoF(G1) . . . . 1114
Table10 Mappingtablewireframe_model_3dUoF(G2) . . . . 1118
Table 11 Mapping table connected_surface_model UoF (G3) . . . . . 1122
Table 12 Mapping table faceted_b_rep_model UoF (G4) . . . . 1137
Table13 Mappingtableb_rep_modelUoF(G5) . . . . . 1142
Table 14 Mapping table compound_model UoF (G6) . . . . 1157
Table15 Mappingtablecsg_modelUoF(G7) . . . . . 1173
Table 16 Mapping table geometrically_bounded_surface_model UoF (G8) . . 1203
Table17 MappingtablekinematicsUoF(K1) . . . . . 1206
Table 18 Mapping table measured_data UoF (MD1) . . . . 1226
Table 19 Mapping table geometric_presentation UoF (P1) . . . . . . 1228
Table 20 Mapping table annotated_presentation UoF (P2) . . . . . . 1260
Table 21 Mapping table shaded_presentation UoF (P3) . . . . 1275
Table22 Mappingtableitem_propertyUoF(PR1) . . . . . 1278
c ISO 2001 – All rights reserved xiii

Table 23 Mapping table product_management_data UoF (S1) . . . . 1335
Table24 Mappingtableelement_structureUoF(S2) . . . . 1513
Table 25 Mapping table item_definition_structure UoF (S3) . . . . . 1572
Table26 MappingtableeffectivityUoF(S4) . . . . . 1603
Table27 Mappingtablework_managementUoF(S5) . . . . 1684
Table28 MappingtableclassificationUoF(S6) . . . . . 1744
Table 29 Mapping table specification_control UoF (S7) . . . . 1766
Table30 Mappingtableprocess_planUoF(S8) . . . . . 1832
Table 31 Mapping table dimension_tolerance UoF (T1) . . . . 1878
Table 32 Mapping table geometric_tolerance UoF (T2) . . . . 1905
Table 33 Usage of UoFs in Conformance Classes CC1-CC5 for CAD/CAM data exchange
andsharing . . . . . . . . 2527
Table 34 Usage of UoFs in Conformance Classes CC6-CC10 for product structure and con-
figurationmanagementdataexchangeandsharing . . . . 2528
Table 35 Usage of UoFs in Conformance Classes CC11-CC15 for process planning and fea-
turebaseddesigndataexchangeandsharing . . . . 2529
Table 36 Usage of UoFs in Conformance Classes CC16-CC20 for simulation, quality con-
trol, and complete data storage and retrieval . . . . 2530
Table37 UsageofAIMelementsinConformanceClasses . . . . 2531
Table B.1 AIM short names of entities. . . . . . 3008
TableF.1 TheAAM-dataclasses . . . . . . 3069
xivc ISO 2001 – All rights reserved

Foreword
ISO (the International Organization for Standardization) is a worldwide federation of national standards
bodies (ISO member bodies). The work of preparing International Standards is normally carried out
through ISO technical committees. Each member body interested in a subject for which a technical com-
mittee has been established has the right to be represented on that committee. International organizations,
governmental and non-governmental, in liaison with ISO, also take part in the work. ISO collaborates
closely with the International Electrotechnical Commission (IEC) on all matters of electrotechnical stan-
dardization.
International Standards are drafted in accordance with the rules given in the ISO/IEC Directives, Part 3.
Draft International Standards adopted by the technical committees are circulated to the member bodies
for voting. Publication as an International Standard requires approval by at least 75% of the member
bodies casting a vote.
Attention is drawn to the possibility that some of the elements of this part of ISO 10303 may be subject
of patent rights. ISO shall not be held responsible for any or all such patent rights.
International Standard ISO 10303–214 was prepared by Technical Committee ISO/TC 184/SC4, Indus-
trial automation systems and integration, Subcommittee SC4, Industrial data.
This International Standard is organized as a series of parts, each published separately. The parts of
ISO 10303 fall into one of the following series: description methods, integrated resources, application
interpreted constructs, application protocols, abstract test suites, implementation methods, and confor-
mance testing. The series are described in ISO 10303-1.
A complete list of parts of ISO 10303 is available from the internet:

The structure of this International Standard is described in ISO 10303-1. The numbering of the parts of
this International Standard reflects its structure:
— Parts 11 to 14 specify the description methods,
— Parts 21 to 29 specify the implementation methods,
— Parts 31 to 35 specify the conformance testing methodology and framework,
— Parts 41 to 50 specify the integrated generic resources,
— Parts 101 to 108 specify the integrated application resources,
— Parts 201 to 236 specify the application protocols,
— Parts 301 to
...