Automatic derivation of kinematic equations for robotic manipulators on the bases of formalized description of their kinematic chains
| Parent link: | The 9th International Forum on Strategic Techology (IFOST-2014), September 21-23, 2014, Cox's Bazar, Bangladesh: [proceedings]. [4 p.].— , 2014 |
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| Summary: | Title screen Mathematical models of kinematics are an indispensable tool when designing robotic manipulator (RM) and robotic systems based on them, as well as when developing control algorithms to be realised for them. The procedure of the derivation of kinematic equations for manipulators has been perfected in the theory of mechanisms and machinery. At the same time, as a rule, it is connected with a great number of geometrical descriptions and algebraic transformations requiring a significant labor input and potentially causing errors conditioned by human factor. The article provides an original method of formalized description of manipulator kinematic chains (MKC) which incorporates the whole complex of information on MKC required for the derivation of kinematic equations for the manipulator being described. The paper also presents a computer programme, developed and officially registered, which automatically derives manipulator kinematic equations in a numerical or analytical form, as desired, based on the formalised description of their MKC. The article provides examples of using this software for commercial industrial robots. |
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2014
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| Series: | Publication Only Papers |
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| Online Access: | http://180.211.172.109/ifost2014Pro/pdf/S4-P59.pdf |
| Format: | Electronic Book Chapter |
| KOHA link: | https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=641727 |