无人手术室机器人手术支持功能的执行引擎

2007 International Symposium on Computational Intelligence in Robotics and Automation Pub Date : 2007-06-20 DOI:10.1109/CIRA.2007.382913

S. Gulati, Edwin H. Jung, C. Kapoor

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引用次数: 8

摘要

无人机器人手术室由远程操作的手术机器人和各种其他子系统组成，这些子系统执行手术支持功能，如分配工具和用品。这种手术室的执行引擎必须协调各子系统来执行手术支持功能。支持函数由一系列任务以及其他结构(如条件语句)组成。反过来，任务由子系统级的动作组成，这些动作由复杂的同步约束连接起来。以前的研究主要集中在开发一种语言来指定任务并对任务之间的约束进行建模。我们提出了一种方法，其中任务被指定为数据结构而不是语言。这样做的好处是可以在数据结构本身隐式地对同步约束进行编码，从而易于编写、调试和维护任务程序。我们将任务建模为一个有向无环图，并提出了一种执行任务图的算法。该算法具有通用性和语言独立性，因此不需要特殊的目的语言来指定任务。讨论了在仿真系统上的实现结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Execution Engine for Robotic Surgery Support Functions in an Unmanned Operating Room

An unmanned robotic operating room consists of a tele-operated surgical robot and various other subsystems that perform surgery support functions such as dispensing tools and supplies. Execution Engine for such an operating room has to coordinate the subsystems to perform surgery support functions. A support function consists of a series of tasks along with other constructs such as conditional statements. A task, in turn, is composed of subsystem level actions connected by complex synchronization constraints. Previous research has focused on developing a language for specifying tasks and modeling the constraints between them. We present an approach where a task is specified as a data-structure rather than a language. This has the advantage of implicitly encoding the synchronization constraints in the data-structure itself, making it easy to write, debug and maintain task programs. We model a task as a directed acyclic graph and propose an algorithm to execute the task graph. The algorithm is general and language independent, thus eliminating the need for a special purpose language to specify tasks. We discuss implementation results on an emulated system.

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来源期刊

2007 International Symposium on Computational Intelligence in Robotics and Automation

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