1、 Reference number ISO 10303-215:2004(E) ISO 2004INTERNATIONAL STANDARD ISO 10303-215 First edition 2004-05-15 Industrial automation systems and integration Product data representation and exchange Part 215: Application protocol: Ship arrangement Systmes dautomatisation industrielle et intgration Rep
2、rsentation et change de donnes de produits Partie 215: Protocole dapplication: Amnagement des navires ISO 10303-215:2004(E) PDF disclaimer This PDF file may contain embedded typefaces. In accordance with Adobes licensing policy, this file may be printed or viewed but shall not be edited unless the t
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7、Switzerland ii ISO 2004 All rights reservedISO 10303-215:2004(E) ISO 2004 All rights reserved iii Contents Page 1 Scope . 1 2 Normative references. 3 3 Terms, definitions and abbreviations . 4 3.1 Terms defined in ISO 10303-1 4 3.2 Terms defined in ISO 10303-21 5 3.3 Terms defined in ISO 10303-31 5
8、3.4 Terms defined in ISO 10303-42 5 3.5 Terms defined in ISO 10303-216 5 3.6 Terms defined in ISO 10303-218 7 3.7 Other terms and definitions . 7 3.8 Abbreviations. 8 4 Information requirements 9 4.1 Units of functionality. 9 4.1.1 arrangement_relationships . 10 4.1.2 cargoes 11 4.1.3 coatings. 12 4
9、.1.4 compartment_design_definitions . 12 4.1.5 compartment_properties. 12 4.1.6 compartment_requirements 13 4.1.7 configuration_management 14 4.1.8 damaged_stability. 15 4.1.9 definitions. 15 4.1.10 external_references 16 4.1.11 hull_class_applicability 16 4.1.12 items . 16 4.1.13 loading_conditions
10、 . 17 4.1.14 location_concepts. 17 4.1.15 product_structures 18 4.1.16 ship_general_characteristics 18 4.1.17 ship_measures 19 4.1.18 spaces . 19 4.1.19 surface_representations 19 4.1.20 tonnage . 20 4.1.21 weights . 20 4.2 Application objects 20 4.3 Application assertions . 166 5 Application interp
11、reted model. 185 5.1 Mapping specification . 185 5.2 AIM EXPRESS short listing . 439 6 Conformance requirements 714 Annex A (normative) AIM EXPRESS expanded listing. 725 Annex B (normative) AIM short names 884 ISO 10303-215:2004(E) iv ISO 2004 All rights reserved Annex C (normative) Implemenation me
12、thod specific requirements 892 Annex D (normative) Protocol implementation conformance statement (PICS) proforma 893 Annex E (normative) Information object registration . 894 Annex F (informative) Application activity model . 895 Annex G (normative) Application reference model 919 Annex H (informati
13、ve) AIM EXPRESS-G 943 Annex J (informative) Computer-interpretable listings. 973 Annex K (informative) Technical discussions. 974 Bibliography 986 Index 987 Figures Figure 1 The full series of ship application protocols viii Figure 2 Data planning model ix Figure 4 Global axis placement .108 Figure
14、F.1 IDEF0 basic notation903 Figure F.2 A-0 Ship arrangement AAM 904 Figure F.3 A0 Perform ship life cycle .905 Figure F.4 A1 Specify ship906 Figure F.5 A12 Prepare bid907 Figure F.6 A122 Create preliminary design 908 Figure F.7 A1222 Create preliminary general arrangements 909 Figure F.8 A12221 Defi
15、ne compartments .910 Figure F.9 A12222 Calculate capacities911 Figure F.10 A12223 Estimate weight 912 Figure F.11 A12224 Calculate stability and trim 913 Figure F.12 A2 Complete and approve ship design.914 Figure F.13 A21 Finalise and approve general arrangements .915 Figure F.14 A211 Finalise gener
16、al arrangements916 Figure F.15 A212 Approve general arrangements.917 Figure F.16 A2122 Check design against rules and regulations918 Figure G.1 ARM diagram (1 of 23).920 Figure G.2 ARM diagram (2 of 23).921 Figure G.3 ARM diagram (3 of 23).922 Figure G.4 ARM diagram (4 of 23).923 Figure G.5 ARM diag
17、ram (5 of 23).924 Figure G.6 ARM diagram (6 of 23).925 Figure G.7 ARM diagram (7 of 23).926 Figure G.8 ARM diagram (8 of 23).927 Figure G.9 ARM diagram (9 of 23).928 Figure G.10 ARM diagram (10 of 23).929 Figure G.11 ARM diagram (11 of 23).930 Figure G.12 ARM diagram (12 of 23).931 Figure G.13 ARM d
18、iagram (13 of 23).932 ISO 10303-215:2004(E) ISO 2004 All rights reserved v Figure G.14 ARM diagram (14 of 23).933 Figure G.15 ARM diagram (15 of 23).934 Figure G.16 ARM diagram (16 of 23).935 Figure G.17 ARM diagram (17 of 23).936 Figure G.18 ARM diagram (18 of 23).937 Figure G.19 ARM diagram (19 of
19、 23).938 Figure G.20 ARM diagram (20 of 23).939 Figure G.21 ARM diagram (21 of 23).940 Figure G.22 ARM diagram (22 of 23).941 Figure G.23 ARM diagram (23 of 23).942 Figure H.1 AIM EXPRESS-G diagram application context .944 Figure H.2 AIM EXPRESS-G diagram product definition .945 Figure H.3 AIM EXPRE
20、SS-G diagram property definition946 Figure H.4 AIM EXPRESS-G diagram shape aspect947 Figure H.5 AIM EXPRESS-G diagram representation .948 Figure H.6 AIM EXPRESS-G diagram geometry and topology .949 Figure H.7 AIM EXPRESS-G diagram face based surface model950 Figure H.8 AIM EXPRESS-G diagram topology
21、951 Figure H.9 AIM EXPRESS-G diagram point952 Figure H.10 AIM EXPRESS-G diagram geometric orientation953 Figure H.11 AIM EXPRESS-G diagram curve .954 Figure H.12 AIM EXPRESS-G diagram bounded curve.955 Figure H.13 AIM EXPRESS-G diagram surface curve.956 Figure H.14 AIM EXPRESS-G diagram surface.957
22、Figure H.15 AIM EXPRESS-G diagram elementary surface958 Figure H.16 AIM EXPRESS-G diagram bounded surface959 Figure H.17 AIM EXPRESS-G diagram action 960 Figure H.18 AIM EXPRESS-G diagram group.961 Figure H.19 AIM EXPRESS-G diagram approval 962 Figure H.20 AIM EXPRESS-G diagram document 963 Figure H
23、.21 AIM EXPRESS-G diagram person and organization964 Figure H.22 AIM EXPRESS-G diagram person and organization assignment.965 Figure H.23 AIM EXPRESS-G diagram date and time.966 Figure H.24 AIM EXPRESS-G diagram units 967 Figure H.25 AIM EXPRESS-G diagram measures .968 Figure H.26 AIM EXPRESS-G diag
24、ram associations and attributes969 Figure H.27 AIM EXPRESS-G diagram classification assignment970 Figure H.28 AIM EXPRESS-G diagram identification assignment971 Figure H.29 AIM EXPRESS-G diagram effectivity assignment and defined types 972 Figure K.1 Ship product model980 Figure K.2 SCM framework 98
25、1 Tables Table 1 UoFs in conformance classes .715 Table 2 Conformance class elements 716 Table B.1 Short names.884 Table K.1 ARM measures and corresponding AIM measures and units 974 ISO 10303-215:2004(E) vi ISO 2004 All rights reserved Foreword ISO (the International Organization for Standardizatio
26、n) 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 committee has been established has the right to be rep
27、resented 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 standardization. International Standards a
28、re drafted in accordance with the rules given in the ISO/IEC Directives, Part 2. 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
29、 vote. Attention is drawn to the possibility that some of the elements of this part of ISO 10303 may be the subject of patent rights. ISO shall not be held responsible for identifying any or all such patent rights. This part of ISO 10303 was prepared by Technical Committee ISO/TC 184, Industrial aut
30、omation systems and integration, Subcommittee SC 4, Industrial data. ISO 10303 is organized as a series of parts, each published separately. The structure of ISO 10303 is described in ISO 10303-1. Each part of ISO 10303 is member of one of the following series: description methods, implementation me
31、thods, conformance testing methodology and framework, integrated generic resources, integrated application resources, application protocols, abstract test suites, application interpreted constructs, and application modules. This part is a member of the application protocols series. A complete list o
32、f parts of ISO 10303 is available from the Internet: ISO 10303-215:2004(E) ISO 2004 All rights reserved vii Introduction ISO 10303 is an International Standard for the computer-interpretable representation of product information and for the exchange of product data. The objective is to provide a neu
33、tral mechanism capable of describing products throughout their life cycle. This mechanism is suitable not only for neutral file exchange, but also as a basis for implementing and sharing product databases, and as a basis for archiving. This part of ISO 10303 is a member of the application protocol s
34、eries. This part of ISO 10303 specifies an application protocol (AP) for the exchange of product data representing a ships internal subdivision information between different organizations with a need for that data. Such organizations include ship owners, design agents, fabricators, and classificatio
35、n societies. This part of ISO 10303 is one of a series of shipping industry application protocols that together aim to provide an integrated computer interpretable product model for ships. The series of shipping industry application protocols assumes that the ship product model can be divided into s
36、eparate ship systems that each cover a key element of the ship for its whole life cycle. These key elements are: ship moulded forms, ship arrangement, ship distribution systems, ship structures, ship mechanical systems, ship outfit and furnishings, and ship mission systems. Each separate system is d
37、escribed by one or more different application protocols. The full series of ship application protocols is shown in Figure 1. Those aspects of the ship product model that are common to each shipbuilding application protocol are described consistently and identically in each application protocol. Anne
38、x K provides additional information on the shipbuilding application protocols and their elements. It also contains information on data common to the shipbuilding application protocols. This application protocol has been developed to support the shipbuilding activities and computer applications assoc
39、iated with the functional design, detail design, production engineering, and operations life cycle phases for commercial or military ships. The types of design activities and computer applications supported include the arrangement of spaces within a ship, definition of the intended function of the c
40、ompartments and zones, detail design of the compartments and zones, geometric representation of compartments and zones, compartment property requirements, compartment property as-designed and as-built values, identification of the outfitting items contained in a compartment, definition of cargoes, a
41、ssociation of cargoes to a compartment, definition of design and operating loading conditions, and damage stability analysis. Figure 2 illustrates the major types of data supported by this application protocol. This planning model was created from the in-scope data from the activities of the applica
42、tion activity model (AAM) and grouped into logical units of functionality. This planning model is used as a guide in developing the application reference model (ARM). This application protocol defines the context, scope, and information requirements for the exchange of ship arrangement definitions,
43、geometric representations of compartments and zones, compartment properties, cargoes, cargo assignments, loading conditions, and damage stability information, and specifies the integrated resources necessary to satisfy these requirements. Application protocols provide the basis for developing implem
44、entations of ISO 10303 and abstract test suites for the conformance testing of AP implementations. Clause 1 defines the scope of the application protocol and summarises the functionality and data covered by the AP. Clause 3 lists the words defined in this part of ISO 10303 and gives pointers towards
45、 defined elsewhere. An application activity model, that is the basis for the definition of the ISO 10303-215:2004(E) viii ISO 2004 All rights reserved scope, is provided by annex F. The information requirements of the application are specified in clause 4 using terminology appropriate to the applica
46、tion. A graphical representation of the information requirements, referred to as the application reference model, is given in annex G. Resource constructs are interpreted to meet the information requirements. This interpretation produces the application interpreted model (AIM). This interpretation,
47、given in 5.1, shows the correspondence between the information requirements and the AIM. The short listing of the AIM specifies the interface to the integrated resources and is given in 5.2. Note that the definitions and EXPRESS provided in the integrated resources for constructs used in the AIM may
48、 include select list items and subtypes which are not imported into the AIM. The expanded listing given in annex A contains the complete EXPRESS for the AIM without annotation. A graphical representation of the AIM is given in annex H. Additional requirements for specific implementation methods are given in annex C. Figure 1 The full series of ship application protocols
