| Nosaukums | <p>This part of ISO 10303 specifies the use of the integrated resources necessary for the scope and</p>
<p>information requirements for the exchange of building element shape, property, and spatial</p>
<p>configuration information between application systems with explicit shape representations. Building</p>
<p>elements are those physical things of which a building is composed, such as structural elements,</p>
<p>enclosing and separating elements, service elements, fixtures and equipment, and spaces.</p>
<p>NOTE 1 - See 3.3.1.3 for definitions of these terms and concepts.</p>
<p>Building element shape, property, and spatial configuration information requirements can be used at</p>
<p>all stages of the life cycle of a building, including the design process, construction, and maintenance.</p>
<p>Building element shape, property, and spatial configuration information requirements specified in this</p>
<p>part of ISO 10303 support the following activities:</p>
<p>— concurrent design processes or building design iterations;</p>
<p>—integration of building structure designs with building systems designs to enable design analysis;</p>
<p>— building design visualization;</p>
<p>— specifications for construction and maintenance;</p>
<p>— analysis and review.</p>
<p>NOTE 2 - "Support" of these activities does not imply satisfaction. Satisfaction of the information</p>
<p>requirements for construction, for example, would require a complete building design. This part of ISO</p>
<p>10303 only satisfies a portion of information requirements for this activity. See 3.3.1.1.</p>
<p>EXAMPLE 1 - A design analysis function combines the building structure design with building service</p>
<p>systems designs (for systems such as heating, ventilation, and air condition (HVAC) and piping) to check</p>
<p>for interferences of the structural elements with piping and air conditioning elements.</p>
<p>NOTE 3 - The application activity model in annex F provides a graphical representation of the processes</p>
<p>and information flows that are the basis for the definition of the scope of this part of ISO 10303.</p>
<p>The following are within the scope of this part of ISO 10303:</p>
<p>— explicit representation of the three-dimensional shape of building elements using boundary</p>
<p>representation (B-rep) solid models, swept solid models, or constructive solid geometry (CSG)</p>
<p>models.</p>
<p>— the spatial configuration of building elements that comprise the assembled building;</p>
<p>— building structures that represent physically distinct buildings that are part of a single building</p>
<p>complex;</p>
<p>— non-structural elements that enclose a building or separate areas within a building;</p>
<p>— the shape and arrangement of equipment and service elements that provide services to a</p>
<p>building;</p>
<p>EXAMPLE 2 - Service elements include items such as plumbing, ductwork, and conduits. Equipment</p>
<p>includes items such as compressors, furnaces, or water heaters.</p>
<p>— the shape and arrangement of fixtures in a building;</p>
<p>EXAMPLE 3 - Fixtures include items such as furniture and installed items like doorknobs.</p>
<p>— specification of spaces and levels;</p>
<p>EXAMPLE 4 - Spaces include rooms, accesses, and hallways. Levels include concepts such as floors and</p>
<p>mezzanines of a building.</p>
<p>— the shape of the site on which the building will be erected;</p>
<p>— specification of properties of building elements, including material composition;</p>
<p>— specification of classification information;</p>
<p>EXAMPLE 5 - Elements may be classified for reasons which include cost analysis, acoustics, or safety.</p>
<p>— association of properties and classification information to building elements;</p>
<p>— changes to building element shape, property, and spatial configuration information;</p>
<p>— association of approvals with building element shape, property, and spatial configuration</p>
<p>information;</p>
<p>— as-built record of the building.</p>
<p>The following are outside the scope of this part of ISO 10303:</p>
<p>— 2D shape representation and draughting presentation;</p>
<p>— the contents of building standards;</p>
<p>— implicit representation of building elements through selection of standard parameters;</p>
<p>— structural analysis of building structures, including loads, connections, and material properties</p>
<p>required for analysis;</p>
<p>— thermal analysis of buildings;</p>
<p>— the assembly process, joining methods, and detailed connectivity of building elements;</p>
<p>— building maintenance history, requirements, and instructions;</p>
<p>— approval, revision, versioning, and design change histories;</p>
<p>— building elements without explicit shape representation;</p>
<p>— bills of quantities.</p>
<p>NOTE 4 - In industries other than AEC, bills of quantities are often referred to as bills of material.</p> |
|---|
| Darbības sfēra | <p>This part of ISO 10303 specifies the use of the integrated resources necessary for the scope and</p>
<p>information requirements for the exchange of building element shape, property, and spatial</p>
<p>configuration information between application systems with explicit shape representations. Building</p>
<p>elements are those physical things of which a building is composed, such as structural elements,</p>
<p>enclosing and separating elements, service elements, fixtures and equipment, and spaces.</p>
<p>NOTE 1 - See 3.3.1.3 for definitions of these terms and concepts.</p>
<p>Building element shape, property, and spatial configuration information requirements can be used at</p>
<p>all stages of the life cycle of a building, including the design process, construction, and maintenance.</p>
<p>Building element shape, property, and spatial configuration information requirements specified in this</p>
<p>part of ISO 10303 support the following activities:</p>
<p>— concurrent design processes or building design iterations;</p>
<p>—integration of building structure designs with building systems designs to enable design analysis;</p>
<p>— building design visualization;</p>
<p>— specifications for construction and maintenance;</p>
<p>— analysis and review.</p>
<p>NOTE 2 - "Support" of these activities does not imply satisfaction. Satisfaction of the information</p>
<p>requirements for construction, for example, would require a complete building design. This part of ISO</p>
<p>10303 only satisfies a portion of information requirements for this activity. See 3.3.1.1.</p>
<p>EXAMPLE 1 - A design analysis function combines the building structure design with building service</p>
<p>systems designs (for systems such as heating, ventilation, and air condition (HVAC) and piping) to check</p>
<p>for interferences of the structural elements with piping and air conditioning elements.</p>
<p>NOTE 3 - The application activity model in annex F provides a graphical representation of the processes</p>
<p>and information flows that are the basis for the definition of the scope of this part of ISO 10303.</p>
<p>The following are within the scope of this part of ISO 10303:</p>
<p>— explicit representation of the three-dimensional shape of building elements using boundary</p>
<p>representation (B-rep) solid models, swept solid models, or constructive solid geometry (CSG)</p>
<p>models.</p>
<p>— the spatial configuration of building elements that comprise the assembled building;</p>
<p>— building structures that represent physically distinct buildings that are part of a single building</p>
<p>complex;</p>
<p>— non-structural elements that enclose a building or separate areas within a building;</p>
<p>— the shape and arrangement of equipment and service elements that provide services to a</p>
<p>building;</p>
<p>EXAMPLE 2 - Service elements include items such as plumbing, ductwork, and conduits. Equipment</p>
<p>includes items such as compressors, furnaces, or water heaters.</p>
<p>— the shape and arrangement of fixtures in a building;</p>
<p>EXAMPLE 3 - Fixtures include items such as furniture and installed items like doorknobs.</p>
<p>— specification of spaces and levels;</p>
<p>EXAMPLE 4 - Spaces include rooms, accesses, and hallways. Levels include concepts such as floors and</p>
<p>mezzanines of a building.</p>
<p>— the shape of the site on which the building will be erected;</p>
<p>— specification of properties of building elements, including material composition;</p>
<p>— specification of classification information;</p>
<p>EXAMPLE 5 - Elements may be classified for reasons which include cost analysis, acoustics, or safety.</p>
<p>— association of properties and classification information to building elements;</p>
<p>— changes to building element shape, property, and spatial configuration information;</p>
<p>— association of approvals with building element shape, property, and spatial configuration</p>
<p>information;</p>
<p>— as-built record of the building.</p>
<p>The following are outside the scope of this part of ISO 10303:</p>
<p>— 2D shape representation and draughting presentation;</p>
<p>— the contents of building standards;</p>
<p>— implicit representation of building elements through selection of standard parameters;</p>
<p>— structural analysis of building structures, including loads, connections, and material properties</p>
<p>required for analysis;</p>
<p>— thermal analysis of buildings;</p>
<p>— the assembly process, joining methods, and detailed connectivity of building elements;</p>
<p>— building maintenance history, requirements, and instructions;</p>
<p>— approval, revision, versioning, and design change histories;</p>
<p>— building elements without explicit shape representation;</p>
<p>— bills of quantities.</p>
<p>NOTE 4 - In industries other than AEC, bills of quantities are often referred to as bills of material.</p> |
|---|
