改造手术机器人用于人类远程手术

S. Butner, Moji Ghodoussi
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引用次数: 161

摘要

本文讨论了对商业机器人手术系统(Computer Motion, Inc.的Zeus/spl trade/)的改造背后的技术和发展,以使其能够完全和安全地支持在很远的距离上进行的微创人类远程手术。因为人的生命处于危险之中,所以与安全、错误检测和故障安全操作有关的问题是最重要的。因此,在此转换过程中,商业产品Zeus/spl贸易/的所有安全特性保持完整是至关重要的。本文讨论了商用机器人及其安全特性,以及作为第一个跨大西洋人类远程外科手术林德伯格手术的一部分添加到它的实时通信系统。特别注意延迟的限制效应。讨论了本项目中开发的关键技术,包括需要在每个传输的数据包中发送机器人的完整状态,而不是增量或模态数据,从而将所有电信问题统一视为丢弃的数据包。分层设计的使用(将Zeus作为一个插入式组件而不是修改其内部)允许项目专注于由于远程操作而产生的新问题,同时从使用未经修改的商业机器人中获得设计的健壮性、错误检查和故障安全方面。本地模式的概念是在初始化和通信异常和中断期间创建和使用的,以便保持本地和远程子系统的活动和安全休眠。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Transforming a surgical robot for human telesurgery
This paper discusses the technology and developments behind transformations made to a commercial robotic surgical system, Computer Motion, Inc.'s Zeus/spl trade/, in order to make it possible to fully and safely support minimally-invasive human telesurgery performed over very large distances. Because human life is at stake, issues relating to safety, detection of errors, and fail-safe operation are principal in importance. Therefore, it was paramount that all of the safety features of the commercial product Zeus/spl trade/ remained intact during this transformation. This paper discusses the commercial robot and its safety features as well as the real-time communications system added to it as part of Operation Lindbergh, the first transatlantic human telesurgery. Particular attention is paid to the limiting effects of latency. Key techniques developed during this project are discussed, including the need to send the full robot state in each transmitted packet rather than incremental or modal data, thereby treating all telecom problems uniformly as dropped packets. The use of hierarchical design (incorporating Zeus as a drop-in component rather than modifying its internals) allowed the project to focus on the new issues arising due to teleoperation while gaining the robust, error checking, and fail-safe aspects of the design from the use of the unmodified commercial robot. The concept of local mode was created and used during initialization and during communications abnormalities and outages in order to keep the local and remote subsystems active and safely quiescent.
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