Integrated application resource: Kinematics ISO 10303-105:2019(E)
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Cover page
Table of contents
Copyright
Foreword
Introduction
1 Scope
2 Normative references
3 Terms, definitions and abbreviated terms
    3.1 Terms and definitions
    3.2 Abbreviated terms
4 Kinematic property
   4.1 General
   4.2 Fundamental concepts and assumptions
   4.3 Kinematic property entity definitions
   4.4 Kinematic property subtype constraint definition

5 Kinematic topology
   5.1 General
   5.2 Fundamental concepts and assumptions
   5.3 Kinematic topology type definition
   5.4 Kinematic topology entity definitions
   5.5 Kinematic topology subtype constraint definition
   5.6 Kinematic topology function definitions
6 Kinematic structure
   6.1 General
   6.2 Fundamental concepts and assumptions
   6.3 Kinematic structure type definitions
   6.4 Kinematic structure entity definitions
   6.5 Kinematic structure subtype constraint definition
   6.6 Kinematic structure function definitions

7 Kinematic state
   7.1 General
   7.2 Fundamental concepts and assumptions
   7.3 Kinematic state type definitions
   7.4 Kinematic state entity definitions
   7.5 Kinematic state subtype constraint definition
   7.6 Kinematic state function definitions
8 Kinematic motion representation
   8.1 General
   8.2 Fundamental concepts and assumptions
   8.3 Kinematic motion representation type definitions
   8.4 Kinematic motion representation entity definitions
   8.5 Kinematic motion representation subtype constraint definitions
9 Kinematic analysis control and result
   9.1 General
   9.2 Fundamental concepts and assumptions
   9.3 Kinematic analysis control and result type definitions
   9.4 Kinematic analysis control and result entity definitions
   9.5 Kinematic analysis control and result subtype constraint definition
A Short names of entities
B Information object registration
C Computer interpretable listings
D EXPRESS-G diagrams
E Technical discussion
F Change history
Bibliography
Index

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 neutral 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 retention and archiving.

Major subdivisions of this part of ISO 10303 are:

This part of ISO 10303 specifies an information model for the kinematic aspects of a mechanical product as required for the communication between CAD systems and kinematic analysis systems, and among dissimilar kinematic analysis systems. Kinematic information in the context of this part of ISO 10303 may be used in:

The kinematic structure in this part of ISO 10303 is composed of rigid components related by kinematic pairs along a surface, on a curve, or at a point.

The kinematic structure schema defines the kinematic structure of rigid objects in terms of links, pairs, and joints. A link is the rigid part of a kinematic object. A pair represents the geometric aspects of the kinematic constraints of motion of these objects, and a joint represents the topological aspects of these constraints. The kinematic structures are represented by graphs in which the vertices of the graph correspond to the links, and the edges of the graph correspond to the joints.

The kinematic motion representation schema specifies the motion of a mechanical product by using a parametric path definition.

The kinematic analysis control and result schema specifies configurations of kinematic structures and the interpolation between configurations. This schema describes prescribed paths for a kinematic analysis and paths resulting from such a kinematic analysis.

The relationships of the schemas in this part of ISO 10303 to other schemas that define the integrated resources of ISO 10303 are illustrated in Figure 1 using the EXPRESS-G notation. EXPRESS-G is defined in ISO 10303-11.

The schemas illustrated in Figure 1 are components of the integrated resources.



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