首页>
外文OA文献
>A Novel Approach to Embodiment Design of a Robotic System for Maximum Workspace
【2h】
A Novel Approach to Embodiment Design of a Robotic System for Maximum Workspace
展开▼
机译:一种最大工作空间机器人系统实现设计的新方法
展开▼
免费
页面导航
摘要
著录项
引文网络
相似文献
相关主题
摘要
Relevant works on the design of spherical parallel robots (SPRs) are mostly for conceptual design. The conceptual design of a SPR considers kinematic parameters and variables to describe the motion transformation between joints and the end-effector. For example, the Denavit-Hartenberg (D-H) notation with four kinematic parameters is used to represent the spatial relations of two motion axes with no consideration of the physical embodiment between the two axes. We call the design parameters involved in the conceptual design phase as conceptual design parameters (CDPs). In contrast, embodiment design concerns the specifications of links and kinematic pairs in terms of their geometrics, volumes, spatial arrangements and dynamic behaviors. Accordingly, we call the designparameters in the embodiment design phase as embodiment design parameters (EDPs). As far as a robotic design is concerned, a critical challenge of embodiment design is to sustain the workspace obtained in conceptual design based on CDPs. Actual geometries of objects might cause the interferences among physical objects in an embodied robot. In this paper, the conceptual design of a SPR is assumed to be known, the embodiment design of a SPR is focused to minimize the workspace loss caused by EDPs. We propose three principles to guide the embodiment design of the SPR, and we apply the general algorithm (GA) for interference check based on the proposed principles. A case study of the embodiment design of a SPR is provide to illustrate how the principles are used to maximize the robot workspace at the stage of embodiment design.
展开▼