Telerobotic Systems for Medical and Industrial Applications

用于医疗和工业应用的遥控机器人系统

• 批准号: RGPIN-2019-05562
• 负责人: Zareinia, Kourosh
• 金额: $ 2.33万
• 依托单位: Ryerson University
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2021
• 资助国家: 加拿大
• 起止时间: 2021-01-01 至 2022-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=738370
• 关键词: Telerobotic; Systems; Medical; Industrial; Applications

Motivation Surgical tasks requiring a very high level of precision and accuracy are extremely dependent on the hand dexterity and surgical skill proficiency of the surgeons, which are partially enhanced by current tools. Teleoperated robotic platforms with enhancements such as haptic (touch) feedback, image-guidance, semi-automation, artificial intelligence, human-robot collaboration, machine vision, and artificial virtual fixtures can provide engineering and technical solutions to improve surgeons' ability to push the boundaries of these limitations further. In the short term, these technological solutions can improve the quality of healthcare (e.g., the extent of tumor resection in brain surgery), provide novel tools for surgeons to perform procedures that were very hard otherwise, or even open the doors for surgical procedures that were deemed impossible previously. In the long term, these technical solutions will decrease the time and thus costs associated with the surgical procedures and will provide potential benefits such as better patient outcomes, increased surgical safety, and higher quality of life and shorter recovery time for patients after surgery. Objective There are still several technical and engineering challenges in a number of core areas of haptic-enabled teleoperation of robots that need fundamental research and investigation in control theory, stability, robustness, manipulability, multi-agent robotic systems, haptic-visual servoing, and other primary engineering theories and methods, to be able to provide practical and viable telerobotic solutions. Such systems should provide tangible benefits, be suitable for the targeted application, and be easy to use for surgeons and operators. These can be achieved by introducing innovative technologies in engineering and science and their application in telerobotic systems. Accordingly, this research program proposes a new paradigm towards providing fundamental engineering solutions through state-of-the-art research to tackle challenges and issues associated with telerobotics and haptics, and to provide novel and intelligent control methods to advance the knowledge in this field, towards global adoption of such robotic systems in medical and industrial applications. Impact The research problems to be addressed in this program are driven by real needs, ensuring that results would benefit applications with practical value. They will extend the ability of surgeons in challenging milieu of very hard surgical procedures and will increase capability of the operators in performing tasks that were high-risk or impossible before. Having the vision of providing innovative technical solutions for long-term improvement of healthcare delivery, treatment, robot-assisted intervention, and training of new healthcare professionals, will result in improving quality of healthcare and cost reduction, while diversifying the Canadian economy and providing jobs in high-tech industries for Canadians.

手术任务需要非常高的精确度和准确性，这极大地依赖于外科医生的手灵巧性和手术技能熟练程度，这在一定程度上得到了当前工具的提高。具有触觉反馈、图像引导、半自动化、人工智能、人机协作、机器视觉和人工虚拟夹具等增强功能的远程操作机器人平台可以提供工程和技术解决方案，以提高外科医生进一步突破这些限制的能力。在短期内，这些技术解决方案可以提高医疗保健的质量（例如，脑外科手术中肿瘤切除的范围），为外科医生提供新的工具，以执行原本非常困难的手术，甚至为以前被认为不可能的外科手术打开大门。从长远来看，这些技术解决方案将减少与外科手术相关的时间和成本，并将提供潜在的好处，如更好的患者预后、更高的手术安全性、更高的生活质量和更短的术后恢复时间。在机器人触觉遥操作的一些核心领域仍存在一些技术和工程挑战，需要在控制理论、稳定性、鲁棒性、可操纵性、多智能体机器人系统、触觉-视觉伺服等基础工程理论和方法方面进行基础研究和探索，才能提供实用可行的遥操作解决方案。这样的系统应该提供切实的好处，适合于有针对性的应用，并且便于外科医生和操作员使用。这些可以通过引入工程和科学方面的创新技术及其在遥控机器人系统中的应用来实现。因此，本研究计划提出了一个新的范例，通过最先进的研究提供基本的工程解决方案，以解决与远程机器人和触觉相关的挑战和问题，并提供新颖和智能的控制方法，以推进该领域的知识，使此类机器人系统在医疗和工业应用中得到全球采用。本项目所要解决的研究问题是由实际需求驱动的，确保研究结果有利于具有实际价值的应用。它们将扩展外科医生在非常困难的外科手术中具有挑战性的环境中的能力，并将提高操作员执行高风险或以前不可能完成的任务的能力。拥有为长期改善医疗保健服务、治疗、机器人辅助干预和培训新的医疗保健专业人员提供创新技术解决方案的愿景，将导致提高医疗保健质量和降低成本，同时使加拿大经济多样化，并为加拿大人提供高科技行业的就业机会。